Procedure Acquisition List
Get a list of ProcedureAcquisition objects. ProcedureAcquisitions have a 1:1 mapping with Observations.
GET /api/v3/acquisitions/?format=api&offset=4600
{ "count": 5833, "next": "https://api.catalogue.ceda.ac.uk/api/v3/acquisitions/?format=api&limit=100&offset=4700", "previous": "https://api.catalogue.ceda.ac.uk/api/v3/acquisitions/?format=api&limit=100&offset=4500", "results": [ { "ob_id": 32480, "uuid": "55ed39ad593e49e3a21da8c32c6f6eaa", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 293 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "Acquisition for: BAS-MASIN flight 293 core meteorological data from the Iceland Greenland Seas Project (IGP)", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32481, "uuid": "6a1d6176610b40af8bf34fb4c96495e6", "short_code": "mpop", "title": "NERC-ARF flight 293", "abstract": "Flight details for NERC-ARF aircraft flight number 293. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12543, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32480, "uuid": "55ed39ad593e49e3a21da8c32c6f6eaa", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 293 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "Acquisition for: BAS-MASIN flight 293 core meteorological data from the Iceland Greenland Seas Project (IGP)" } } ] }, { "ob_id": 32484, "uuid": "96ca2a8811f945e28afa6c24367aed7c", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 294 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32485, "uuid": "8352e6a2bf054fe48b79b96981b808d5", "short_code": "mpop", "title": "NERC-ARF flight 294", "abstract": "Flight details for NERC-ARF aircraft flight number 294. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12541, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32484, "uuid": "96ca2a8811f945e28afa6c24367aed7c", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 294 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32486, "uuid": "b365026a1bc5474586156232f2d694f6", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 292 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "Acquisition for: BAS-MASIN flight 292 core meteorological data from the Iceland Greenland Seas Project (IGP)", "imageDetails": [ 2 ], "mobilePlatformOperation": [ { "ob_id": 32476, "uuid": "6b0c1a7351894939bba41cace64139ff", "short_code": "mpop", "title": "NERC-ARF flight 292", "abstract": "Flight details for NERC-ARF aircraft flight number 292. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12542, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32486, "uuid": "b365026a1bc5474586156232f2d694f6", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 292 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "Acquisition for: BAS-MASIN flight 292 core meteorological data from the Iceland Greenland Seas Project (IGP)" } } ] }, { "ob_id": 32490, "uuid": "5652fbfd1c7447fc8ca115a6cf422971", "short_code": "acq", "title": "APHH: High Resolution Time of Flight Mass Spectrometer measurements made at the Indira Gandhi Delhi Technical University for Women (IGDTUW) site during the DelhiFlux field campaigns", "abstract": "APHH: High Resolution Time of Flight Mass Spectrometer measurements made at the Indira Gandhi Delhi Technical University for Women (IGDTUW) site during the DelhiFlux field campaigns", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12544, "platform": { "ob_id": 30219, "uuid": "07a71f4e62e2468391f492b85905167c", "short_code": "plat", "title": "Indira Gandhi Delhi Technical University for Women (IGDTUW)", "abstract": "Indira Gandhi Delhi Technical University for Women (IGDTUW) which is situated on the periphery of Old Delhi and overlooks a very heavily populated area. As part of the DelhiFlux project the team have constructed a rooftop mast at 4m and a 30 m tall flux tower from which to directly measure pollutant emissions from two contrasting regions of Delhi." }, "instrument": { "ob_id": 32489, "uuid": "53772ce112cc4376a94cde69525d76e1", "short_code": "instr", "title": "CEH High Resolution Time of Flight Aerosol Mass Spectrometer (HR-ToF-AMS)", "abstract": "High Resolution Time of Flight Aerosol Mass Spectrometer (HR-ToF-AMS) continuously samples particles through a critical orifice into an aerodynamic lens. The lens focuses the particles into a narrow beam and accelerates them to a velocity inversely related to their vacuum aerodynamic diameter." }, "relatedTo": { "ob_id": 32490, "uuid": "5652fbfd1c7447fc8ca115a6cf422971", "short_code": "acq", "title": "APHH: High Resolution Time of Flight Mass Spectrometer measurements made at the Indira Gandhi Delhi Technical University for Women (IGDTUW) site during the DelhiFlux field campaigns", "abstract": "APHH: High Resolution Time of Flight Mass Spectrometer measurements made at the Indira Gandhi Delhi Technical University for Women (IGDTUW) site during the DelhiFlux field campaigns" } } ] }, { "ob_id": 32507, "uuid": "ff7b13190810488db4cb15cee34b0038", "short_code": "acq", "title": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)", "abstract": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12545, "platform": { "ob_id": 32509, "uuid": "4334a343c4a54bb1bd38f9e8ffb2519f", "short_code": "plat", "title": "Guangzhou Institute of Geochemistry, China", "abstract": "Guangzhou Institute of Geochemistry, China" }, "instrument": { "ob_id": 32508, "uuid": "aa7722c8288b45c3bc0062f17f4c9d63", "short_code": "instr", "title": "York Chemiluminescence with a Thermo scientific 42i-TL", "abstract": "Measure the amount of nitrogen oxides in the air from sub-ppb levels up to 1000 ppb using chemiluminescence with the Thermo Scientific™ Model 42i-TL TRACE Level NOx Analyzer. The Model 42i-TL is a single chamber, single photomultiplier tube design that cycles between the NO, NOx, and Zero modes." }, "relatedTo": { "ob_id": 32507, "uuid": "ff7b13190810488db4cb15cee34b0038", "short_code": "acq", "title": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)", "abstract": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)" } }, { "ob_id": 12546, "platform": { "ob_id": 32509, "uuid": "4334a343c4a54bb1bd38f9e8ffb2519f", "short_code": "plat", "title": "Guangzhou Institute of Geochemistry, China", "abstract": "Guangzhou Institute of Geochemistry, China" }, "instrument": { "ob_id": 13069, "uuid": "3f21274cd3ba40d391b154f87bfc9f25", "short_code": "instr", "title": "University of York's TEI 49 UV absorption O3 analyser", "abstract": "The Thermo 49 is a powerful, easy-to-use, UV photometric based ozone analyzer which offers increased specificity via its balanced optical system. User programmable software capabilities allows selection of the frequency at which internalzero/span activation and instrument calibrationchecks will occur. Additionally, field programmable measurement range settings can bestored in memory for subsequent recall. Extended troubleshooting diagnostics now provide instantaneous indication of instrumentoperating parameter, status including: Pressure, Flow, DC Supply Voltages, Optical BenchTemperature, Ozonator Power Supply Voltageand Lamp Voltage.\r\n\r\nThermo Environmental Instruments 49i UV absorption O3 analyser under AMF and currently operated by the University of Leeds. This is a ground-based laser-induced fluorescence instrument for detection of OH, HO2, and RO2 radicals. OH reactivity measurements using a laser flash-photolysis technique can be provided alongside the radical measurements. The instrument is housed in and operated from a custom-built 20 ft shipping container." }, "relatedTo": { "ob_id": 32507, "uuid": "ff7b13190810488db4cb15cee34b0038", "short_code": "acq", "title": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)", "abstract": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)" } }, { "ob_id": 12547, "platform": { "ob_id": 32509, "uuid": "4334a343c4a54bb1bd38f9e8ffb2519f", "short_code": "plat", "title": "Guangzhou Institute of Geochemistry, China", "abstract": "Guangzhou Institute of Geochemistry, China" }, "instrument": { "ob_id": 27307, "uuid": "e719c6a8729e4793b3527fe2f0eaa510", "short_code": "instr", "title": "PM2.5: Met One BAM 1020", "abstract": "The BAM-1020 automatically measures and records airborne particulate concentration levels (in milligrams or micrograms per cubic meter) using the industry-proven principle of beta ray attenuation." }, "relatedTo": { "ob_id": 32507, "uuid": "ff7b13190810488db4cb15cee34b0038", "short_code": "acq", "title": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)", "abstract": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)" } }, { "ob_id": 12548, "platform": { "ob_id": 32509, "uuid": "4334a343c4a54bb1bd38f9e8ffb2519f", "short_code": "plat", "title": "Guangzhou Institute of Geochemistry, China", "abstract": "Guangzhou Institute of Geochemistry, China" }, "instrument": { "ob_id": 24978, "uuid": "a2fad67d8d9f44feb7354797683464ce", "short_code": "instr", "title": "University of York: TEI 43i TL SO2", "abstract": "SO2 data taken using TEI 43i TL SO2 analyser. SO2 data taken using 1000ppb SO2 in nitrogen cylinder (BOC)\r\n" }, "relatedTo": { "ob_id": 32507, "uuid": "ff7b13190810488db4cb15cee34b0038", "short_code": "acq", "title": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)", "abstract": "Acquisition for: Air quality and meteorological measurements taken from Guangzhou Institute of Geochemistry (GIG), China (31/07/2019 -31/12/2019)" } } ] }, { "ob_id": 32512, "uuid": "b7f993e0c3e745dc9975da8aa580a654", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from MODIS, v1.0", "abstract": "The snow_cci SCFG and SCFV products from MODIS are based on the MODIS/Terra Calibrated Radiances 5-Min L1B Swath 1km (MOD021KM) and the MODIS/Terra Geolocation Fields 5-Min L1A Swath 1km (MOD03) Collection 6.1 data sets, provided by NASA.\r\n\r\nThe snow_cci SCF processing chain for MODIS includes the masking of clouds, the identification of certainly snow free areas, and the classification of snow cover fraction per pixel for all remaining observed pixels. Finally, permanent snow and ice areas as well as water bodies are masked in the SCFG products using the corresponding classes from the Land Cover CCI map of the year 2000 as auxiliary layers. All SCFG products are prepared according to the CCI data standards.\r\n\r\nAn automated and a manual quality check was performed on the full time series.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12550, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 32512, "uuid": "b7f993e0c3e745dc9975da8aa580a654", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from MODIS, v1.0", "abstract": "The snow_cci SCFG and SCFV products from MODIS are based on the MODIS/Terra Calibrated Radiances 5-Min L1B Swath 1km (MOD021KM) and the MODIS/Terra Geolocation Fields 5-Min L1A Swath 1km (MOD03) Collection 6.1 data sets, provided by NASA.\r\n\r\nThe snow_cci SCF processing chain for MODIS includes the masking of clouds, the identification of certainly snow free areas, and the classification of snow cover fraction per pixel for all remaining observed pixels. Finally, permanent snow and ice areas as well as water bodies are masked in the SCFG products using the corresponding classes from the Land Cover CCI map of the year 2000 as auxiliary layers. All SCFG products are prepared according to the CCI data standards.\r\n\r\nAn automated and a manual quality check was performed on the full time series." } } ] }, { "ob_id": 32513, "uuid": "2ab35d990acc499cb6ca2c476897f536", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from MODIS, v1.0", "abstract": "The snow_cci SCFG and SCFV products from MODIS are based on the MODIS/Terra Calibrated Radiances 5-Min L1B Swath 1km (MOD021KM) and the MODIS/Terra Geolocation Fields 5-Min L1A Swath 1km (MOD03) Collection 6.1 data sets, provided by NASA.\r\n\r\nThe snow_cci SCF processing chain for MODIS includes the masking of clouds, the identification of certainly snow free areas, and the classification of snow cover fraction per pixel for all remaining observed pixels. Finally, permanent snow and ice areas as well as water bodies are masked in the SCFG products using the corresponding classes from the Land Cover CCI map of the year 2000 as auxiliary layers. All SCFG products are prepared according to the CCI data standards.\r\n\r\nAn automated and a manual quality check was performed on the full time series.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12551, "platform": { "ob_id": 10906, "uuid": "5a1076bffc8c4c5d8a2ff3a4cfb29846", "short_code": "plat", "title": "Aqua Satellite, part of the Earth Observation System Afternoon Constellation (EOS-PM)", "abstract": "Aqua, launched on 4th April 2002, is a polar-orbiting satellite within the Afternoon Constellation (A-Train) that have equator crossings around 13:30 and 01:30 under NASA's Earth Obseration System (EOS). The satellite carries Atmospheric Infrared Sounder (AIRS), Advanced Microwave Sounding Unit (AMSU-A), Humidity Sounder for Brazil (HSB), Advanced Microwave Scanning Radiometer for EOS (AMSR-E), Moderate-Resolution Imaging Spectroradiometer (MODIS) and Clouds and the Earth's Radiant Energy System (CERES), and these collect data on the Earth's atmospheric conditions, snow and ice, sea surface temperature and ocean productivity, and soil moisture. Aqua was the first member launched of a group of satellites termed the Afternoon Constellation, or sometimes the A-Train. " }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 32513, "uuid": "2ab35d990acc499cb6ca2c476897f536", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from MODIS, v1.0", "abstract": "The snow_cci SCFG and SCFV products from MODIS are based on the MODIS/Terra Calibrated Radiances 5-Min L1B Swath 1km (MOD021KM) and the MODIS/Terra Geolocation Fields 5-Min L1A Swath 1km (MOD03) Collection 6.1 data sets, provided by NASA.\r\n\r\nThe snow_cci SCF processing chain for MODIS includes the masking of clouds, the identification of certainly snow free areas, and the classification of snow cover fraction per pixel for all remaining observed pixels. Finally, permanent snow and ice areas as well as water bodies are masked in the SCFG products using the corresponding classes from the Land Cover CCI map of the year 2000 as auxiliary layers. All SCFG products are prepared according to the CCI data standards.\r\n\r\nAn automated and a manual quality check was performed on the full time series." } }, { "ob_id": 12552, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 32513, "uuid": "2ab35d990acc499cb6ca2c476897f536", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from MODIS, v1.0", "abstract": "The snow_cci SCFG and SCFV products from MODIS are based on the MODIS/Terra Calibrated Radiances 5-Min L1B Swath 1km (MOD021KM) and the MODIS/Terra Geolocation Fields 5-Min L1A Swath 1km (MOD03) Collection 6.1 data sets, provided by NASA.\r\n\r\nThe snow_cci SCF processing chain for MODIS includes the masking of clouds, the identification of certainly snow free areas, and the classification of snow cover fraction per pixel for all remaining observed pixels. Finally, permanent snow and ice areas as well as water bodies are masked in the SCFG products using the corresponding classes from the Land Cover CCI map of the year 2000 as auxiliary layers. All SCFG products are prepared according to the CCI data standards.\r\n\r\nAn automated and a manual quality check was performed on the full time series." } } ] }, { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12553, "platform": { "ob_id": 1664, "uuid": "9298b7366f4e4f4ea637c8f854f88cf5", "short_code": "plat", "title": "NOAA-7", "abstract": "NASA polar-orbiting satellite which operated for the period 23rd June 1981 - 7th June 1986." }, "instrument": { "ob_id": 1802, "uuid": "adfffcff783c4b26ac9640ef4b141196", "short_code": "instr", "title": "Advanced Very High Resolution Radiometer 2 (AVHRR/2)", "abstract": "The AVHRR is a radiation-detection imager that can be used for remotely determining cloud cover and the surface temperature. Note that the term surface can mean the surface of the Earth, the upper surfaces of clouds, or the surface of a body of water. This scanning radiometer uses 6 detectors that collect different bands of radiation wavelengths.\n\nThe first AVHRR was a 4-channel radiometer, first carried on TIROS-N (launched October 1978). This was subsequently improved to a 5-channel instrument (AVHRR/2) that was initially carried on NOAA-7 (launched June 1981). The latest instrument version is AVHRR/3, with 6 channels, first carried on NOAA-15 launched in May 1998." }, "relatedTo": { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project." } }, { "ob_id": 12555, "platform": { "ob_id": 1679, "uuid": "25e813e1539d46aeaf320dc3e4f06b8f", "short_code": "plat", "title": "NOAA-9", "abstract": "NASA polar-orbiting satellite which operated for the period december 1984 to August 1993." }, "instrument": { "ob_id": 1802, "uuid": "adfffcff783c4b26ac9640ef4b141196", "short_code": "instr", "title": "Advanced Very High Resolution Radiometer 2 (AVHRR/2)", "abstract": "The AVHRR is a radiation-detection imager that can be used for remotely determining cloud cover and the surface temperature. Note that the term surface can mean the surface of the Earth, the upper surfaces of clouds, or the surface of a body of water. This scanning radiometer uses 6 detectors that collect different bands of radiation wavelengths.\n\nThe first AVHRR was a 4-channel radiometer, first carried on TIROS-N (launched October 1978). This was subsequently improved to a 5-channel instrument (AVHRR/2) that was initially carried on NOAA-7 (launched June 1981). The latest instrument version is AVHRR/3, with 6 channels, first carried on NOAA-15 launched in May 1998." }, "relatedTo": { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project." } }, { "ob_id": 12556, "platform": { "ob_id": 1693, "uuid": "922c7e6cc7d04fa78ca9b30cd4d646c8", "short_code": "plat", "title": "NOAA-11", "abstract": "NASA polar orbiting satellite which operated during the period 24 Spetember 1988 to March 1995." }, "instrument": { "ob_id": 1802, "uuid": "adfffcff783c4b26ac9640ef4b141196", "short_code": "instr", "title": "Advanced Very High Resolution Radiometer 2 (AVHRR/2)", "abstract": "The AVHRR is a radiation-detection imager that can be used for remotely determining cloud cover and the surface temperature. Note that the term surface can mean the surface of the Earth, the upper surfaces of clouds, or the surface of a body of water. This scanning radiometer uses 6 detectors that collect different bands of radiation wavelengths.\n\nThe first AVHRR was a 4-channel radiometer, first carried on TIROS-N (launched October 1978). This was subsequently improved to a 5-channel instrument (AVHRR/2) that was initially carried on NOAA-7 (launched June 1981). The latest instrument version is AVHRR/3, with 6 channels, first carried on NOAA-15 launched in May 1998." }, "relatedTo": { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project." } }, { "ob_id": 12557, "platform": { "ob_id": 1809, "uuid": "e43da72c118e44ec811c395aa05a16be", "short_code": "plat", "title": "NOAA-14", "abstract": "NOAA polar orbiting satellite which operated during the period 30 December 1994 to Febraury 2001." }, "instrument": { "ob_id": 1802, "uuid": "adfffcff783c4b26ac9640ef4b141196", "short_code": "instr", "title": "Advanced Very High Resolution Radiometer 2 (AVHRR/2)", "abstract": "The AVHRR is a radiation-detection imager that can be used for remotely determining cloud cover and the surface temperature. Note that the term surface can mean the surface of the Earth, the upper surfaces of clouds, or the surface of a body of water. This scanning radiometer uses 6 detectors that collect different bands of radiation wavelengths.\n\nThe first AVHRR was a 4-channel radiometer, first carried on TIROS-N (launched October 1978). This was subsequently improved to a 5-channel instrument (AVHRR/2) that was initially carried on NOAA-7 (launched June 1981). The latest instrument version is AVHRR/3, with 6 channels, first carried on NOAA-15 launched in May 1998." }, "relatedTo": { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project." } }, { "ob_id": 12558, "platform": { "ob_id": 1824, "uuid": "2a13c66bfad74b98b9cd4201c51de8c1", "short_code": "plat", "title": "NOAA-16", "abstract": "NOAA polar orbiting satellite which was launched on September 21, 2000" }, "instrument": { "ob_id": 10888, "uuid": "174943d1a43c4de4896d799d2b19b4f6", "short_code": "instr", "title": "AVHRR-3", "abstract": "The AVHRR/3, on board the EPS MetOp satellite series, scans the Earth surface in six spectral bands in the range of 0.58 - 12.5 microns. It provides day and night imaging of land, water and clouds, measures sea surface temperature, ice, snow and vegetation cover." }, "relatedTo": { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project." } }, { "ob_id": 12559, "platform": { "ob_id": 27174, "uuid": "3dba7abe842a4f55b7d27d58cfa6b7ac", "short_code": "plat", "title": "NOAA-18", "abstract": "NOAA (National Oceanic and Atmospheric Administration) polar orbiting satellite which was launched on 20th May, 2005." }, "instrument": { "ob_id": 10888, "uuid": "174943d1a43c4de4896d799d2b19b4f6", "short_code": "instr", "title": "AVHRR-3", "abstract": "The AVHRR/3, on board the EPS MetOp satellite series, scans the Earth surface in six spectral bands in the range of 0.58 - 12.5 microns. It provides day and night imaging of land, water and clouds, measures sea surface temperature, ice, snow and vegetation cover." }, "relatedTo": { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project." } }, { "ob_id": 12560, "platform": { "ob_id": 27175, "uuid": "c6470e63d7f84f20b9c765be3d0b9352", "short_code": "plat", "title": "NOAA-19", "abstract": "NOAA (National Oceanic and Atmospheric Administration) polar orbiting satellite which was launched on 6th February 2009" }, "instrument": { "ob_id": 10888, "uuid": "174943d1a43c4de4896d799d2b19b4f6", "short_code": "instr", "title": "AVHRR-3", "abstract": "The AVHRR/3, on board the EPS MetOp satellite series, scans the Earth surface in six spectral bands in the range of 0.58 - 12.5 microns. It provides day and night imaging of land, water and clouds, measures sea surface temperature, ice, snow and vegetation cover." }, "relatedTo": { "ob_id": 32518, "uuid": "fe25ba369f6e4247aba9650253ef9f6a", "short_code": "acq", "title": "Aquisition for: ESA Snow Climate Change Initiative (snow_cci) Snow Cover Fraction from AVHRR, v1.0", "abstract": "The snow_cci SCFG and SCFV products from AVHRR are based on the AVHRR baseline FCDR that was pre-processed using pyGAC and pySTAT in the frame of the ESA CCI Cloud project." } } ] }, { "ob_id": 32533, "uuid": "a23b9c7d361b45949cc5a5ae58d69605", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 295 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32534, "uuid": "cdef402fe8404fae81d9d5d2209113fc", "short_code": "mpop", "title": "NERC-ARF flight 295", "abstract": "Flight details for NERC-ARF aircraft flight number 295. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12561, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32533, "uuid": "a23b9c7d361b45949cc5a5ae58d69605", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 295 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32537, "uuid": "629c2268e818465c8d3fd1a5bf4e838a", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 296 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32538, "uuid": "9381690c5d984b6e8005e7446393bef9", "short_code": "mpop", "title": "NERC-ARF flight 296", "abstract": "Flight details for NERC-ARF aircraft flight number 296. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12562, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32537, "uuid": "629c2268e818465c8d3fd1a5bf4e838a", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 296 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32541, "uuid": "da0a3677c3194d2889e0dbfccf049848", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 297 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32542, "uuid": "9a1f744bd8be47db9b3575ccc3e70f7a", "short_code": "mpop", "title": "NERC-ARF flight 297", "abstract": "Flight details for NERC-ARF aircraft flight number 297. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12563, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32541, "uuid": "da0a3677c3194d2889e0dbfccf049848", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 297 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32545, "uuid": "33f06173d1f64d44880c99e314be6e25", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 298 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32546, "uuid": "b4a3710b5c1d4361b89a435202b54d86", "short_code": "mpop", "title": "NERC-ARF flight 298", "abstract": "Flight details for NERC-ARF aircraft flight number 298. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12564, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32545, "uuid": "33f06173d1f64d44880c99e314be6e25", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 298 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32549, "uuid": "7534c28745dd4e9396ee1d09e18e5ac0", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 299 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32550, "uuid": "f35138a2fda24815bd4b83867de13fc2", "short_code": "mpop", "title": "NERC-ARF flight 299", "abstract": "Flight details for NERC-ARF aircraft flight number 299. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12565, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32549, "uuid": "7534c28745dd4e9396ee1d09e18e5ac0", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 299 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32553, "uuid": "8f5183c710ee4e8ca809b339c66f24db", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 300 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32554, "uuid": "df30e19bd3a84bd7a1506e3500bfe75b", "short_code": "mpop", "title": "NERC-ARF flight 300", "abstract": "Flight details for NERC-ARF aircraft flight number 300. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12566, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32553, "uuid": "8f5183c710ee4e8ca809b339c66f24db", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 300 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32557, "uuid": "14005342c5b740f4ad3fe0d8ffb22841", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 301 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32558, "uuid": "0f9ac595a64a4dc89accd2b78a62f328", "short_code": "mpop", "title": "NERC-ARF flight 301", "abstract": "Flight details for NERC-ARF aircraft flight number 301. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12567, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32557, "uuid": "14005342c5b740f4ad3fe0d8ffb22841", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 301 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32561, "uuid": "111c2d411eaf453a9ac9c9fcd0f9a059", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 306 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32562, "uuid": "e4c4926dd3164e0cb1b5e47ccb0ae6ba", "short_code": "mpop", "title": "NERC-ARF flight 306", "abstract": "Flight details for NERC-ARF aircraft flight number 306. See linked documentation for further details." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12568, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32561, "uuid": "111c2d411eaf453a9ac9c9fcd0f9a059", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 306 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32565, "uuid": "d565820add31474eac38171fe98105c9", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 303 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32566, "uuid": "1a4493b019e34bd89abd95f181e4235f", "short_code": "mpop", "title": "NERC-ARF flight 303", "abstract": "Flight details for NERC-ARF aircraft flight number 303. 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Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32565, "uuid": "d565820add31474eac38171fe98105c9", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 303 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32569, "uuid": "c121bc7c617c41728306df006ea3050f", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 304 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32570, "uuid": "1146d448ac0140b1aa230f03bc77e2be", "short_code": "mpop", "title": "NERC-ARF flight 304", "abstract": "Flight details for NERC-ARF aircraft flight number 304. 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Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32569, "uuid": "c121bc7c617c41728306df006ea3050f", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 304 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32573, "uuid": "d8049354950842cb93de0f0ff6195ac2", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 305 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 32574, "uuid": "bccead31fc3e429796e8e51d0feb0345", "short_code": "mpop", "title": "NERC-ARF flight 305", "abstract": "Flight details for NERC-ARF aircraft flight number 305. 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Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 32573, "uuid": "d8049354950842cb93de0f0ff6195ac2", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 305 core meteorological data from the Iceland Greenland Seas Project (IGP)", "abstract": "" } } ] }, { "ob_id": 32581, "uuid": "97384eb8c1d347248ae75744d1ef43ba", "short_code": "acq", "title": "Ness AWS long term monitoring", "abstract": "Ness AWS long term monitoring", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12572, "platform": { "ob_id": 32579, "uuid": "f8dd9f066edd472c8cd59e607bd2ad4b", "short_code": "plat", "title": "University of Liverpool: Ness Botanical Gardens Meteorological Site", "abstract": "The University of Liverpool: Ness Botanical Gardens meteorological has hosted a number of instruments recording meteorological data over time. For fuller details of the site's recording history see the site's MIDAS station record in the linked documentation.\r\n\r\nMIDAS station ID (src_id) : 1130\r\nDCNN station ID: 7326\r\n\r\nThe site is located in the Wirral, Cheshire, UK at 39m above mean sea-level at 53.2708N -3.0467E." }, "instrument": { "ob_id": 32580, "uuid": "5c829f35868e46b0a929c17c796ab0cd", "short_code": "instr", "title": "Ness Gardens Automatic Weather Station unit 1", "abstract": "Ness Gardens Automatic Weather Station (AWS) unit 1 is a Vantage Pro 2 \r\n\r\nThe instrument has the following ranges and sensitivities:\r\n\r\n - Pressure (Range: 540 - 1100hPa, Resolution: 0.1hPa, Accuracy: 1hPa)\r\n - Humidity (Range: 1 - 100%, Resolution: 1%, Accuracy: 2%)\r\n - Air Temperature (Range: -40C - 65C. Resolution: 0.1C, Accuracy: 0.3C)\r\n - Wind Speed (Range: 0 - 89 ms-1, Resolution: 0.4 ms-1, Accuracy: 0.9 ms-1)\r\n - Wind From Direction (Range: 1 - 360, Resolution: 22.5, Accuracy: 3%)\r\n - Accumulated Rain (Range: 0 - 999.8mm, Resolution: 0.2mm, Accuracy: 0.2mm for Rainrate < 250mm hr-1, 3% otherwise)\r\n - Rainrate (0 - 762 mm hr-1, Resolution: 0.1 mm hr-1, Accuracy: 5% up to 250 mm hr-1, 3% othersize)\r\n - Soil Temperature (Range: -40C - 65C. Resolution: 0.1C, Accuracy: 0.3C)\r\n - Soil Moisture (Range: 0 - 200, Resolution: 1, Accuracy: 0.5)\r\n - Leaf Temperature (Range: -40C - 65C. Resolution: 0.1C, Accuracy: 0.3C)\r\n - Leaf Wetness (Range: 0 - 15, Resolution: 1, Accuracy: 0.5)\r\n - Solar Radiation (Range: 0 1800Wm-2, Resolution: 1Wm-2, Accuracy: 5%)\r\n - UV (Range: 0 1800Wm-2, Resolution: 1Wm-2, Accuracy: 5%)." }, "relatedTo": { "ob_id": 32581, "uuid": "97384eb8c1d347248ae75744d1ef43ba", "short_code": "acq", "title": "Ness AWS long term monitoring", "abstract": "Ness AWS long term monitoring" } } ] }, { "ob_id": 32594, "uuid": "2b5e6abb44844bbfa34220b674d23461", "short_code": "acq", "title": "NCEO Aboveground Biomass Map V21 2015", "abstract": "The map was generated by combining field inventory plots (KFS) with L-band SAR (JAXA ALOS-2 PALSAR-2)", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12573, "platform": { "ob_id": 29959, "uuid": "d367f0c185a84677a52487304474a3aa", "short_code": "plat", "title": "ALOS-2", "abstract": "The Advanced Land Observing Satellite -2 (ALOS-2) is an Earth Observation satellite operated by JAXA and is the second instrument in the ALOS programme of satellites. It carries two instruments: PALSAR-2 (Phased-Array L-band Synthetic Aperture Radar - 2 ) and CIRC (Compact Infrared Camera)" }, "instrument": { "ob_id": 29958, "uuid": "8030695806b544f3948439758ea9b38f", "short_code": "instr", "title": "PALSAR-2", "abstract": "The Phased Array type-L band Synthetic Aperture Radar -2 (PALSAR-2) is an active microwave sensor using L-band frequency and which produces various products of different resolutions and performance. PALSAR-2 is flown on board the Japanese earth observation Advanced Land Observing Satellite 2 (ALOS -2) and was developed by the Japanese Aerospace Exploration Agency (JAXA). PALSAR-2 data can be acquired during day or night, increasing the temporal coverage of data for a particular spatial extent. PALSAR-2 is capable of detailed, all-weather, day and night observations and repeat-pass interferometry." }, "relatedTo": { "ob_id": 32594, "uuid": "2b5e6abb44844bbfa34220b674d23461", "short_code": "acq", "title": "NCEO Aboveground Biomass Map V21 2015", "abstract": "The map was generated by combining field inventory plots (KFS) with L-band SAR (JAXA ALOS-2 PALSAR-2)" } }, { "ob_id": 12574, "platform": { "ob_id": 12358, "uuid": "0ed62573c69a4f8ab46ea898ef0650a1", "short_code": "plat", "title": "Landsat 8", "abstract": "The Landsat 8 satellite was launched on 11th February 2013. It is a joint collaboration between the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS). It was initially named the Landsat Continuity Mission but was later renamed Landsat 8. The Landsat 8 mission provides 16 bit high quality land surface data. It is offset by 8 days from Landsat 7 has a 16 day repeat cycle. The Landsat 8 payload consists of the Operational Land Imager (OLI) and the Thermal Infrared Sensor (TIRS). The OLI provides multispectral data in the visible, near infrared and shortwave infrared as well as a panchromatic band. The TIRS instrument provides data in two thermal infrared bands." }, "instrument": { "ob_id": 12365, "uuid": "363aa51ef6c940a09daf90792856f8cd", "short_code": "instr", "title": "Landsat 8 Operational Land Imager (OLI) and Thermal InfraRed Sensor (TIRS)", "abstract": "The Operational Land Imager (OLI) and Thermal InfraRed Sensor (TIRS) are instruments on board the Landsat 8 platform provides multispectral images of the Earth's surface in the visible, near infrared, shortwave infrared and thermal infrared. Landsat 8 is a joint project beween the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS)." }, "relatedTo": { "ob_id": 32594, "uuid": "2b5e6abb44844bbfa34220b674d23461", "short_code": "acq", "title": "NCEO Aboveground Biomass Map V21 2015", "abstract": "The map was generated by combining field inventory plots (KFS) with L-band SAR (JAXA ALOS-2 PALSAR-2)" } } ] }, { "ob_id": 32618, "uuid": "5deec334bf504130bc2fcfad99cdf42b", "short_code": "acq", "title": "Acquisition for: Non-methane volatile organic compound emission inventories from burning studies performed as part of the APHH-INDIA project (DelhiFlux).", "abstract": "Acquisition for: Non-methane volatile organic compound emission inventories from burning studies performed as part of the APHH-INDIA project (DelhiFlux).", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [ 3181 ], "instrumentplatformpair_set": [ { "ob_id": 12575, "platform": { "ob_id": 32651, "uuid": "20c744f39aff4cc2af5ae1f406be83b2", "short_code": "plat", "title": "Network of sites around India for emissions inventories for APHH", "abstract": "Measurements were taken in March 2019 at the Council of Scientific & Industrial Research in Delhi but have been extrapolated across the years 1993-2016 to cover all of India." }, "instrument": { "ob_id": 3181, "uuid": "1c6e1009510e4e25bfc549ebe7f6ff52", "short_code": "instr", "title": "York: 2 Dimensional GC-fid", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 32618, "uuid": "5deec334bf504130bc2fcfad99cdf42b", "short_code": "acq", "title": "Acquisition for: Non-methane volatile organic compound emission inventories from burning studies performed as part of the APHH-INDIA project (DelhiFlux).", "abstract": "Acquisition for: Non-methane volatile organic compound emission inventories from burning studies performed as part of the APHH-INDIA project (DelhiFlux)." } } ] }, { "ob_id": 32676, "uuid": "1555372bc28140aca7c86ae502bc8d5e", "short_code": "acq", "title": "Aquisition for: ESA Antarctic Ice Sheets CCI ground line location for key glaciers", "abstract": "Data have been derived from satellite observations from the ERS-1/2, TerraSAR-X and Copernicus Sentinel-1 satellites, acquired between 1994 and 2020.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12576, "platform": { "ob_id": 12319, "uuid": "b6a54b30cf1f45d79e08117ccabeceb6", "short_code": "plat", "title": "Sentinel 1A", "abstract": "Sentinel 1A is the first of the European Space Agency (ESA) Sentinel series. It was launched on 3rd April 2014." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32676, "uuid": "1555372bc28140aca7c86ae502bc8d5e", "short_code": "acq", "title": "Aquisition for: ESA Antarctic Ice Sheets CCI ground line location for key glaciers", "abstract": "Data have been derived from satellite observations from the ERS-1/2, TerraSAR-X and Copernicus Sentinel-1 satellites, acquired between 1994 and 2020." } }, { "ob_id": 12577, "platform": { "ob_id": 20017, "uuid": "c68fe345e19a47b0a200941896f8aace", "short_code": "plat", "title": "Sentinel 1B", "abstract": "Sentinel 1B is the first of the European Space Agency (ESA) Sentinel series. It was launched on 25th April 2016." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32676, "uuid": "1555372bc28140aca7c86ae502bc8d5e", "short_code": "acq", "title": "Aquisition for: ESA Antarctic Ice Sheets CCI ground line location for key glaciers", "abstract": "Data have been derived from satellite observations from the ERS-1/2, TerraSAR-X and Copernicus Sentinel-1 satellites, acquired between 1994 and 2020." } }, { "ob_id": 12580, "platform": { "ob_id": 32746, "uuid": "0dcb87736d5f4aa5903310160fa7e92f", "short_code": "plat", "title": "TerraSAR-X and TanDEM-X", "abstract": "-" }, "instrument": { "ob_id": 32675, "uuid": "3e705c71f8184b4b8a1a326b101ecd30", "short_code": "instr", "title": "SAR-X", "abstract": "SAR-X is flown on the German TerraSAR-X satellite. It is an X-band Synthetic Aperture Radar" }, "relatedTo": { "ob_id": 32676, "uuid": "1555372bc28140aca7c86ae502bc8d5e", "short_code": "acq", "title": "Aquisition for: ESA Antarctic Ice Sheets CCI ground line location for key glaciers", "abstract": "Data have been derived from satellite observations from the ERS-1/2, TerraSAR-X and Copernicus Sentinel-1 satellites, acquired between 1994 and 2020." } }, { "ob_id": 12578, "platform": { "ob_id": 7805, "uuid": "d21630e98aa74a4f8406743b74e5d076", "short_code": "plat", "title": "ERS-1", "abstract": "The European Remote Sensing satellite 1 (ERS1) was launched on 17th July 1991 and was the first flight of the RSA ERS program. The payload included the ATSR, AMU-SAR , AMI-SCAT, LRR PRARE and RA instruments. End of mission for ERS1 was 10th March 2000." }, "instrument": { "ob_id": 32747, "uuid": "bb030f960b934d0ba23dccacc4428eee", "short_code": "instr", "title": "AMI-SAR", "abstract": "A Synthetic Aperture Radar (SAR) was launched onboard European Remote Sensing Satellite 1 (ERS-1) in July 1991 and ERS-2 in April 1995 as part of the Active Microwave Instrument (AMI)." }, "relatedTo": { "ob_id": 32676, "uuid": "1555372bc28140aca7c86ae502bc8d5e", "short_code": "acq", "title": "Aquisition for: ESA Antarctic Ice Sheets CCI ground line location for key glaciers", "abstract": "Data have been derived from satellite observations from the ERS-1/2, TerraSAR-X and Copernicus Sentinel-1 satellites, acquired between 1994 and 2020." } }, { "ob_id": 12579, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 32747, "uuid": "bb030f960b934d0ba23dccacc4428eee", "short_code": "instr", "title": "AMI-SAR", "abstract": "A Synthetic Aperture Radar (SAR) was launched onboard European Remote Sensing Satellite 1 (ERS-1) in July 1991 and ERS-2 in April 1995 as part of the Active Microwave Instrument (AMI)." }, "relatedTo": { "ob_id": 32676, "uuid": "1555372bc28140aca7c86ae502bc8d5e", "short_code": "acq", "title": "Aquisition for: ESA Antarctic Ice Sheets CCI ground line location for key glaciers", "abstract": "Data have been derived from satellite observations from the ERS-1/2, TerraSAR-X and Copernicus Sentinel-1 satellites, acquired between 1994 and 2020." } } ] }, { "ob_id": 32696, "uuid": "8a71f0acff9e45199e34e879671f2b29", "short_code": "acq", "title": "Acquisition for ESA Antarctic Ice Sheet Climate Change Initiative (Antarctic_Ice_Sheet_cci): Antarctic Ice Sheet monthly Gravimetric Mass Balance Product, v3.0", "abstract": "The Antarctic Ice Sheet Gravimetric Mass Balance (GMB) v3.0 product is based on monthly snapshots of the Earth’s gravity field provided by the Gravity Recovery and Climate Experiment (GRACE) and its follow-on satellite mission (GRACE-FO). The product relies on monthly gravity field solutions (L2) of release 06 generated at the Center for Space Research (University of Texas at Austin) and spans the period from April 2002 through July 2020.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12581, "platform": { "ob_id": 32693, "uuid": "b46bacbde62c477dba7027c300b7b0cf", "short_code": "plat", "title": "GRACE", "abstract": "The Gravity Recovery and Climate Experiment (GRACE) was a joint NASA and DLR mission launched in 2002 to measure changes in the Earth's gravity field.\r\nIt consists of twin satellites." }, "instrument": { "ob_id": 32695, "uuid": "502f27a6814142f28b7ec8f1c9ce630a", "short_code": "instr", "title": "GRACE instrument", "abstract": "Instrumentation on the Gravity Recovery and Climate Experiment (GRACE) and GRACE-FO satellite missions." }, "relatedTo": { "ob_id": 32696, "uuid": "8a71f0acff9e45199e34e879671f2b29", "short_code": "acq", "title": "Acquisition for ESA Antarctic Ice Sheet Climate Change Initiative (Antarctic_Ice_Sheet_cci): Antarctic Ice Sheet monthly Gravimetric Mass Balance Product, v3.0", "abstract": "The Antarctic Ice Sheet Gravimetric Mass Balance (GMB) v3.0 product is based on monthly snapshots of the Earth’s gravity field provided by the Gravity Recovery and Climate Experiment (GRACE) and its follow-on satellite mission (GRACE-FO). The product relies on monthly gravity field solutions (L2) of release 06 generated at the Center for Space Research (University of Texas at Austin) and spans the period from April 2002 through July 2020." } }, { "ob_id": 12582, "platform": { "ob_id": 32694, "uuid": "7c9c9b90cd804d4aaba3b1d38c1ea5b1", "short_code": "plat", "title": "GRACE-FO", "abstract": "The Gravity Recovery and Climate Experiment Follow-on (GRACE-FO) mission is a joint NASA, DLR mission launched in 2018" }, "instrument": { "ob_id": 32695, "uuid": "502f27a6814142f28b7ec8f1c9ce630a", "short_code": "instr", "title": "GRACE instrument", "abstract": "Instrumentation on the Gravity Recovery and Climate Experiment (GRACE) and GRACE-FO satellite missions." }, "relatedTo": { "ob_id": 32696, "uuid": "8a71f0acff9e45199e34e879671f2b29", "short_code": "acq", "title": "Acquisition for ESA Antarctic Ice Sheet Climate Change Initiative (Antarctic_Ice_Sheet_cci): Antarctic Ice Sheet monthly Gravimetric Mass Balance Product, v3.0", "abstract": "The Antarctic Ice Sheet Gravimetric Mass Balance (GMB) v3.0 product is based on monthly snapshots of the Earth’s gravity field provided by the Gravity Recovery and Climate Experiment (GRACE) and its follow-on satellite mission (GRACE-FO). The product relies on monthly gravity field solutions (L2) of release 06 generated at the Center for Space Research (University of Texas at Austin) and spans the period from April 2002 through July 2020." } } ] }, { "ob_id": 32699, "uuid": "8ee58d233916481db9f0b25c30ae9ad1", "short_code": "acq", "title": "Aquistion for the ESA Antarctic Ice Sheet Climate Change Initiative (Antarctic_Ice_Sheet_cci): Antarctic Ice Sheet monthly velocity from 2017 to 2020, derived from Sentinel-1, v1.3", "abstract": "Data were derived from Sentinel-1", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12583, "platform": { "ob_id": 12319, "uuid": "b6a54b30cf1f45d79e08117ccabeceb6", "short_code": "plat", "title": "Sentinel 1A", "abstract": "Sentinel 1A is the first of the European Space Agency (ESA) Sentinel series. It was launched on 3rd April 2014." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32699, "uuid": "8ee58d233916481db9f0b25c30ae9ad1", "short_code": "acq", "title": "Aquistion for the ESA Antarctic Ice Sheet Climate Change Initiative (Antarctic_Ice_Sheet_cci): Antarctic Ice Sheet monthly velocity from 2017 to 2020, derived from Sentinel-1, v1.3", "abstract": "Data were derived from Sentinel-1" } }, { "ob_id": 12584, "platform": { "ob_id": 20017, "uuid": "c68fe345e19a47b0a200941896f8aace", "short_code": "plat", "title": "Sentinel 1B", "abstract": "Sentinel 1B is the first of the European Space Agency (ESA) Sentinel series. It was launched on 25th April 2016." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32699, "uuid": "8ee58d233916481db9f0b25c30ae9ad1", "short_code": "acq", "title": "Aquistion for the ESA Antarctic Ice Sheet Climate Change Initiative (Antarctic_Ice_Sheet_cci): Antarctic Ice Sheet monthly velocity from 2017 to 2020, derived from Sentinel-1, v1.3", "abstract": "Data were derived from Sentinel-1" } } ] }, { "ob_id": 32774, "uuid": "4c4f080b0afb40b9a5522d0b3af9cf2f", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1A C-band Synthetic Aperture Radar (SAR), Stripmap (SM) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1A C-band Synthetic Aperture Radar (SAR) in Stripmap (SM) mode.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12586, "platform": { "ob_id": 12319, "uuid": "b6a54b30cf1f45d79e08117ccabeceb6", "short_code": "plat", "title": "Sentinel 1A", "abstract": "Sentinel 1A is the first of the European Space Agency (ESA) Sentinel series. It was launched on 3rd April 2014." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32774, "uuid": "4c4f080b0afb40b9a5522d0b3af9cf2f", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1A C-band Synthetic Aperture Radar (SAR), Stripmap (SM) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1A C-band Synthetic Aperture Radar (SAR) in Stripmap (SM) mode." } } ] }, { "ob_id": 32792, "uuid": "7f2db1418a374a9eb1ad4a5ead4a0936", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1A C-band Synthetic Aperture Radar (SAR), Wave (WV) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1A C-band Synthetic Aperture Radar (SAR) in Wave (WV) mode.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12587, "platform": { "ob_id": 12319, "uuid": "b6a54b30cf1f45d79e08117ccabeceb6", "short_code": "plat", "title": "Sentinel 1A", "abstract": "Sentinel 1A is the first of the European Space Agency (ESA) Sentinel series. It was launched on 3rd April 2014." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32792, "uuid": "7f2db1418a374a9eb1ad4a5ead4a0936", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1A C-band Synthetic Aperture Radar (SAR), Wave (WV) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1A C-band Synthetic Aperture Radar (SAR) in Wave (WV) mode." } } ] }, { "ob_id": 32797, "uuid": "4c44f3e675d0464eb47f3a7d5163c36c", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1B C-band Synthetic Aperture Radar (SAR), Wave (WV) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1B C-band Synthetic Aperture Radar (SAR) in Wave (WV) mode.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12588, "platform": { "ob_id": 20017, "uuid": "c68fe345e19a47b0a200941896f8aace", "short_code": "plat", "title": "Sentinel 1B", "abstract": "Sentinel 1B is the first of the European Space Agency (ESA) Sentinel series. It was launched on 25th April 2016." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32797, "uuid": "4c44f3e675d0464eb47f3a7d5163c36c", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1B C-band Synthetic Aperture Radar (SAR), Wave (WV) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1B C-band Synthetic Aperture Radar (SAR) in Wave (WV) mode." } } ] }, { "ob_id": 32813, "uuid": "f2370020914949c489de445f630b3fef", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1B C-band Synthetic Aperture Radar (SAR), Stripmap (SM) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1B C-band Synthetic Aperture Radar (SAR) in Stripmap (SM) mode.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12589, "platform": { "ob_id": 20017, "uuid": "c68fe345e19a47b0a200941896f8aace", "short_code": "plat", "title": "Sentinel 1B", "abstract": "Sentinel 1B is the first of the European Space Agency (ESA) Sentinel series. It was launched on 25th April 2016." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 32813, "uuid": "f2370020914949c489de445f630b3fef", "short_code": "acq", "title": "Acquisition Process for: Sentinel 1B C-band Synthetic Aperture Radar (SAR), Stripmap (SM) mode.", "abstract": "The acquisition process for the collection of raw radar data from the European Space Agency (ESA) Sentinel 1B C-band Synthetic Aperture Radar (SAR) in Stripmap (SM) mode." } } ] }, { "ob_id": 32858, "uuid": "74166c97d5e74d51ac946aa36431ae95", "short_code": "acq", "title": "Aquisition for the ESA Greenhouse Gases Climate Change Initiative CH4_GO2_SRPR dataset", "abstract": "The CH4_GO2_SRPR dataset is derived from data from the TANSO-FTS/2 instrument on the GOSAT-2 satellite.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12590, "platform": { "ob_id": 32856, "uuid": "9ab7f14fb49c4a588e0d166a1a134eda", "short_code": "plat", "title": "GOSAT-2", "abstract": "The Green-house gas Observing Satellite - 2 (GOSAT-2) is a Japanese satellite launched in 2018. It carries two instruments; \tthe Thermal And Near infrared Sensor for carbon Observations - Fourier Transform Spectrometer / 2 (TANSO-FTS/2) and \tThermal And Near infrared Sensor for carbon Observations - Cloud and Aerosol Imager / 2 (TANSO-CAI/2)." }, "instrument": { "ob_id": 32857, "uuid": "7af4953babec47518e515ea7d4687c6e", "short_code": "instr", "title": "TANSO-FTS/2", "abstract": "The Thermal And Near infrared Sensor for carbon Observations - Fourier Transform Spectrometer / 2 (TANSO-FTS/2) is an instrument flying on the second GOSAT satellite (GOSAT-2)." }, "relatedTo": { "ob_id": 32858, "uuid": "74166c97d5e74d51ac946aa36431ae95", "short_code": "acq", "title": "Aquisition for the ESA Greenhouse Gases Climate Change Initiative CH4_GO2_SRPR dataset", "abstract": "The CH4_GO2_SRPR dataset is derived from data from the TANSO-FTS/2 instrument on the GOSAT-2 satellite." } } ] }, { "ob_id": 32898, "uuid": "c2a39ba8284f461583d0c5ea5e592b07", "short_code": "acq", "title": "Dense Rainguage Network Purpose-built for HYREX project in Somerset.", "abstract": "Dense Rainguage Network Purpose-built for HYREX project in Somerset. deployed 1993-2000. \r\n\r\nStations Info:\r\n\r\nRAIN GAUGE DOWN LOAD DATE BY \r\nAWT NRA NAME LOCATION LOGGER GAUGE X Y \t HEIGHT (M)\r\n01 280 MEND MENDIP FARM 9999 99999 999999 999999 40\r\n02 281 KILK KILKENNY FIELDS 2361 22502 360990 135070 35\r\n03 282 ALFO ALFORD FIELDS 2360 22509 361060 133080 45\r\n04 283 DITC DITCHET HILL FARM 2359 22504 363000 137000 80\r\n05 284 KITE KITE LANE 2358 22603 362320 135780 50\r\n06 285 MEAD MEADOW BUILDINGS 2357 22518 363050 135550 50\r\n07 286 SNAG SNAGG FARM FIELDS 2341 22606 363690 135690 45\r\n08 287 BFRM BRIDGE FARM ORCHARD 2347 22520 362480 135000 39\r\n09 288 SCOT OPP SPRINGFIELD COTTS 2319 22507 363490 134990 45\r\n10 289 MOOR MOOR LANE PADDOCK 2364 22506 362310 134270 35\r\n11 290 JACO JACOBS LANE FIELD 2311 22522 363030 134450 53\r\n12 291 SHIE SHIELDSVILLE FARM 2349 22505 363620 134330 50\r\n13 292 LOWE LOWER FARM SUTTON 2331 22616 362690 133410 38\r\n14 293 CAST INDUST PARK CC 2314 22511 363300 132640 46\r\n15 294 SPRI SPRING STONY STRATTON 2363 22626 364990 140970 165\r\n16 295 EVER FIELDS IN EVERCREECH 2365 22524 364960 138950 90\r\n17 296 RODM RODMOOR FARM FIELDS 2352 22610 364970 136950 55\r\n18 297 WADD WADDON FARM ORCHARD 2327 22514 364620 135330 53\r\n19 298 EAST EAST HILL LANE FIELDS 9999 99999 365290 134660 50\r\n20 299 KNAP KNAPP HOLLOW WYKE LANE 2342 22622 365100 133000 72\r\n21 300 CHES CHESTERBLADE BANKS FM 2339 22615 367050 140950 155\r\n22 301 BADG BADGER SET MANOR FM 2332 22510 367070 139050 110\r\n23 302 MILT MILTON WOOD CORN FIELD 2330 22620 366660 137290 122\r\n24 303 GREE GREENSCOME FIELD 2326 22629 367330 136660 172\r\n25 304 CRAB CRABTREE LANE FIELD 2350 22503 366880 135070 95\r\n26 305 PITC PITCOMBE FIELD 2320 22526 367030 132980 75\r\n27 306 HADS HADSPEN HOUSE FIELDS 2310 22515 366710 131330 103\r\n28 307 FRAN FRANCOMBE LANE FIELDS 9999 99999 367270 130700 112\r\n29 308 BATC BATCOMBE HILL FIELDS 2354 22519 369000 141000 193\r\n30 309 QUAR QUARRY FIELD BATCOMBE 2317 22605 368660 139330 163\r\n31 310 SEAT SEAT LANE FIELD 2356 22627 369360 138660 105\r\n32 311 WHAD WHADDONN FARM FIELDS 2353 22623 369020 136950 124\r\n33 312 FLAG SEPTIC TANK COMPOUND 2351 22604 368900 135100 70\r\n34 313 NEWH NEW HOUSE FARM FIELD 9999 99999 368340 133680 87\r\n35 314 GODW GODMINSTER WOODS 2321 22608 368970 133520 97\r\n36 315 DROP DROPPING LANE FARM 2328 22499 369690 133690 157\r\n37 316 GODM GODMINSTER FARM 9999 99999 368480 133010 102\r\n38 317 REDL REDLYNCH FARM STUMP 9999 99999 369520 133050 108\r\n39 318 DODD DODDS CORNER FIELD 9999 99999 368260 132350 999\r\n40 319 TOWE TOWERS FIELD 9999 99999 369000 132490 999\r\n41 320 POND POND FIELD BY TOWERS 2344 22521 369630 132220 999\r\n42 321 KNOW KNOWLE FIELD BY STREAM 2316 22628 369000 131000 999\r\n43 322 UPTO UPTON NOBLE FIELD 9999 99999 999999 999999 999\r\n44 323 GOOD GOODEDGE FARM FIELDS 2348 22501 371850 136950 115\r\n45 324 COGL COGLY WOOD FIELDS 2355 22512 370780 135400 110\r\n46 325 HORS HORSLEY FARM FIELDS 2336 22517 371300 134720 125\r\n47 326 MOWO MOOR WOOD FIELDS 2321 22508 371120 132960 127\r\n48 327 WALT WALTERS FARM FIELD 2318 22621 372670 137300 123\r\n49 328 COOK COOKS FARM FIELD 2324 22523 373330 136670 110\r\n50 329 CRAW CRAWLY FARM FIELD 2335 22500 373000 135000 120\r\n51 330 GLAD GLADWELL FARM FIELD 2346 22609 375000 137000 148\r\nOTHER SITES OUTSIDE OF BRUE CATCHMENT (EA data)\r\n52\t PENR PENRIDGE 375500 132200\r\n53\t CHAR CHARD\t\t \t\t 333200 109500\r\n54 CATL CASTLETON\t\t\t 364600 116600\r\n55\t FULW FULWOOD\t\t\t\t 321300 119700\r\n56\t MAUN MAUNDOWN\t\t\t 305500 129100\r\n57 MOUN MOUNT ST NURSERIES 323100 124000\r\n58 RIVE RIVERS HOUSE\t\t\t 330100 137700\r\n59 NORT NORTH BREWHAM\t\t\t 372200 137000\r\n60\t DARS DARSHILL \t 360100 144000\r\n61\t GOLD GOLDS CORNER\t\t\t 336700 143100\r\n62\t GEOR ST GEORGE\t\t\t 337800 163100\r\n64\t SOME SOMERTON\t\t\t 348700 129500", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [ 1202 ], "instrumentplatformpair_set": [] }, { "ob_id": 32940, "uuid": "aef67d6db6584dae9787a3942e0fd03c", "short_code": "acq", "title": "The ACE-FTS instrument on SCISAT", "abstract": "Acquisition of data from the ACE-FTS (Atmospheric Chemistry Experiment Fourier Transform Spectrometer) instrument onboard SCISAT", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12591, "platform": { "ob_id": 20005, "uuid": "6bcc48b379d349d88dcf025ca49b4ec6", "short_code": "plat", "title": "SCISAT", "abstract": "The SCISAT-1 satellite is a Canadian Satellite, launched in 2003. It carries two instruments: ACE-FTS and MAESTRO." }, "instrument": { "ob_id": 32942, "uuid": "cddfdd0d9de744ed943109362dd6912c", "short_code": "instr", "title": "ACE-FTS", "abstract": "The Atmospheric Chemistry Experiment - Fourier Transform Spectrometer (ACE-FTS) is a high-resolution Fourier Transform Spectrometer flying on the Canadian SCISAT-1 satellite." }, "relatedTo": { "ob_id": 32940, "uuid": "aef67d6db6584dae9787a3942e0fd03c", "short_code": "acq", "title": "The ACE-FTS instrument on SCISAT", "abstract": "Acquisition of data from the ACE-FTS (Atmospheric Chemistry Experiment Fourier Transform Spectrometer) instrument onboard SCISAT" } } ] }, { "ob_id": 33006, "uuid": "e97292028fac4449b72a05d173087430", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP)", "abstract": "The MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP) in the stratosphere with a resolved longitudinal structure, which is derived from data by six limb and occultation satellite instruments: GOMOS, SCIAMACHY and MIPAS on Envisat, OSIRIS on Odin, OMPS on Suomi-NPP, and MLS on Aura.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12592, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 8541, "uuid": "0acdf61fc0444329869ce51541494552", "short_code": "instr", "title": "Envisat - MIPAS (Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) Instrument", "abstract": "The Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) is one of the ten instruments onboard the Envisat satellite launched from Kourou (French Guyana) on the 28th February 2002 and operated by the European Space Agency (ESA). It operates as a Fourier transform spectrometer for the measurement of high-resolution gaseous emission spectra at the Earth's limb. It operates in the near- to mid-infrared, where many of the main atmospheric trace gases have important emission features. Its main objectives are to provide simultaneous and global measurements of the middle atmosphere dynamics, radiation budget and chemical composition (O3, H2O, CH4, N2O, HNO3, NO2), and to monitor stratospheric ozone and CFCs." }, "relatedTo": { "ob_id": 33006, "uuid": "e97292028fac4449b72a05d173087430", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP)", "abstract": "The MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP) in the stratosphere with a resolved longitudinal structure, which is derived from data by six limb and occultation satellite instruments: GOMOS, SCIAMACHY and MIPAS on Envisat, OSIRIS on Odin, OMPS on Suomi-NPP, and MLS on Aura." } }, { "ob_id": 12593, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 11045, "uuid": "07925992cfa542c1b3f608e3f57f0969", "short_code": "instr", "title": "ENVISAT GOMOS", "abstract": "GOMOS measures atmospheric constituents by spectral analysis of the spectral bands between 250 nm to 675 nm, 756 nm to 773 nm, and 926 nm to 952 nm. Additionally, two photometers operate in two spectral channels; between 470 nm to 520 nm and 650 nm to 700 nm, respectively." }, "relatedTo": { "ob_id": 33006, "uuid": "e97292028fac4449b72a05d173087430", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP)", "abstract": "The MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP) in the stratosphere with a resolved longitudinal structure, which is derived from data by six limb and occultation satellite instruments: GOMOS, SCIAMACHY and MIPAS on Envisat, OSIRIS on Odin, OMPS on Suomi-NPP, and MLS on Aura." } }, { "ob_id": 12594, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 8029, "uuid": "10c100fc807d4ccf8b5f899c93a279ac", "short_code": "instr", "title": "Envisat - SCIAMACHY", "abstract": "The Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) is one of the ten instruments onboard the Envisat satellite launched from Kourou (French Guyana) on the 28th of February 2002 and operated by the European Space Agency (ESA)." }, "relatedTo": { "ob_id": 33006, "uuid": "e97292028fac4449b72a05d173087430", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP)", "abstract": "The MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP) in the stratosphere with a resolved longitudinal structure, which is derived from data by six limb and occultation satellite instruments: GOMOS, SCIAMACHY and MIPAS on Envisat, OSIRIS on Odin, OMPS on Suomi-NPP, and MLS on Aura." } }, { "ob_id": 12595, "platform": { "ob_id": 32958, "uuid": "cdf0aaff4f4b4c2ea6b78e9e5d2913ad", "short_code": "plat", "title": "Odin", "abstract": "The Odin satellite was launched in February 2001, with a primary mission to study the upper atmosphere. It carries two instruments, OSIRIS and SMR." }, "instrument": { "ob_id": 19991, "uuid": "ffbaba65285440389f3c6a45f4644014", "short_code": "instr", "title": "OSIRIS", "abstract": "Canada's Optical Spectrograph and InfraRed Imaging System (OSIRIS) is the optical payload on Sweden's Odin satellite. It works in synergy with Sweden's advanced radiometer and measures atmospheric composition.\r\n\r\nSince 2001, OSIRIS has obtained valuable information on the upper atmosphere. It focuses its attention on altitudes from 7 to 90 km—between the highest mountains and the edge of space—and measures concentrations of ozone, aerosols and nitrogen dioxide.\r\n\r\nData provided by OSIRIS helps scientists better understand the impact of human activities and natural phenomena on the environment and climate." }, "relatedTo": { "ob_id": 33006, "uuid": "e97292028fac4449b72a05d173087430", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP)", "abstract": "The MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP) in the stratosphere with a resolved longitudinal structure, which is derived from data by six limb and occultation satellite instruments: GOMOS, SCIAMACHY and MIPAS on Envisat, OSIRIS on Odin, OMPS on Suomi-NPP, and MLS on Aura." } }, { "ob_id": 12596, "platform": { "ob_id": 33004, "uuid": "127687ff68bd4604b96771258a04a1fc", "short_code": "plat", "title": "SNPP", "abstract": "The Suomi National Polar-orbiting Partnership (SNPP) is an operation meteorology satellite flown by NOAA and NASA. It is the prototype of the JPSS (Joint Polar Satellite System) program." }, "instrument": { "ob_id": 33003, "uuid": "2a5180ac823b40ada1840056ca71f902", "short_code": "instr", "title": "OMPS", "abstract": "The Ozone Mapping and Polar Suite (OMPS) is a NASA instrument flown on the Suomi-NPP satellite" }, "relatedTo": { "ob_id": 33006, "uuid": "e97292028fac4449b72a05d173087430", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP)", "abstract": "The MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP) in the stratosphere with a resolved longitudinal structure, which is derived from data by six limb and occultation satellite instruments: GOMOS, SCIAMACHY and MIPAS on Envisat, OSIRIS on Odin, OMPS on Suomi-NPP, and MLS on Aura." } }, { "ob_id": 12597, "platform": { "ob_id": 3883, "uuid": "ba8eaadcf91b46b2b5a4d60b6b96866a", "short_code": "plat", "title": "EOS-AURA", "abstract": "Aura (Latin for breeze) was launched July 15, 2004. The design life is five years with an operational goal of six years. Aura flies in formation about 15 minutes behind Aqua. Aura is part of the Earth Observing System (EOS), a program dedicated to monitoring the complex interactions that affect the globe using NASA satellites and data systems. EOS-Aura's instruments are HIRDLS, MLS, OMI and TES." }, "instrument": { "ob_id": 33005, "uuid": "1ed678fc0732490890d7ba0d4b250598", "short_code": "instr", "title": "MLS (EOS-AURA)", "abstract": "The Microwave Limb Sounder (MLS) flies on NASA's EOS-Aura satellite. It measures the chemical species in the higher atmosphere. It as a follow-on of the MLS instrument on the UARS satellite." }, "relatedTo": { "ob_id": 33006, "uuid": "e97292028fac4449b72a05d173087430", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP)", "abstract": "The MErged GRIdded Dataset of Ozone Profiles (MEGRIDOP) in the stratosphere with a resolved longitudinal structure, which is derived from data by six limb and occultation satellite instruments: GOMOS, SCIAMACHY and MIPAS on Envisat, OSIRIS on Odin, OMPS on Suomi-NPP, and MLS on Aura." } } ] }, { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 13566, "platform": { "ob_id": 39972, "uuid": "a6dbae355dcb4b9d916ea30dbd99f955", "short_code": "plat", "title": "ISS", "abstract": "International Space Station (ISS)" }, "instrument": { "ob_id": 562, "uuid": "fef804f141a743edab3f47abc25ffd22", "short_code": "instr", "title": "Stratospheric Aerosol and Gas Experiment III (SAGE III)", "abstract": "The SAGE III mission on the Russian Meteor 3M-1 spacecraft seeks to enhance our understanding of natural and human-derived atmospheric processes by providing high latitude long-term measurements of the vertical structure of aerosols, ozone, water vapor, and other important trace gases in the upper troposphere and stratosphere." }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13567, "platform": { "ob_id": 39314, "uuid": "3cde107354b441589f95cdc46c5bf6a1", "short_code": "plat", "title": "SPOT-4", "abstract": "SPOT 4 (Satellite pour l'Observation de la Terre) was a commercial Earth-imaging satellite from CNES (Centre National D’Etudes Spatiales), the French Space Agency. It was launched on 24 March 1998 and ceased operations after a malfunction on 29 June 2013." }, "instrument": { "ob_id": 39973, "uuid": "3c3ab181ab2b4df986247b00e392fac9", "short_code": "instr", "title": "POAM III", "abstract": "The Polar Ozone and Aerosol Measurement III (POAM III)" }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13568, "platform": { "ob_id": 33004, "uuid": "127687ff68bd4604b96771258a04a1fc", "short_code": "plat", "title": "SNPP", "abstract": "The Suomi National Polar-orbiting Partnership (SNPP) is an operation meteorology satellite flown by NOAA and NASA. It is the prototype of the JPSS (Joint Polar Satellite System) program." }, "instrument": { "ob_id": 33003, "uuid": "2a5180ac823b40ada1840056ca71f902", "short_code": "instr", "title": "OMPS", "abstract": "The Ozone Mapping and Polar Suite (OMPS) is a NASA instrument flown on the Suomi-NPP satellite" }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13569, "platform": { "ob_id": 20005, "uuid": "6bcc48b379d349d88dcf025ca49b4ec6", "short_code": "plat", "title": "SCISAT", "abstract": "The SCISAT-1 satellite is a Canadian Satellite, launched in 2003. It carries two instruments: ACE-FTS and MAESTRO." }, "instrument": { "ob_id": 32942, "uuid": "cddfdd0d9de744ed943109362dd6912c", "short_code": "instr", "title": "ACE-FTS", "abstract": "The Atmospheric Chemistry Experiment - Fourier Transform Spectrometer (ACE-FTS) is a high-resolution Fourier Transform Spectrometer flying on the Canadian SCISAT-1 satellite." }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13570, "platform": { "ob_id": 32958, "uuid": "cdf0aaff4f4b4c2ea6b78e9e5d2913ad", "short_code": "plat", "title": "Odin", "abstract": "The Odin satellite was launched in February 2001, with a primary mission to study the upper atmosphere. It carries two instruments, OSIRIS and SMR." }, "instrument": { "ob_id": 19991, "uuid": "ffbaba65285440389f3c6a45f4644014", "short_code": "instr", "title": "OSIRIS", "abstract": "Canada's Optical Spectrograph and InfraRed Imaging System (OSIRIS) is the optical payload on Sweden's Odin satellite. It works in synergy with Sweden's advanced radiometer and measures atmospheric composition.\r\n\r\nSince 2001, OSIRIS has obtained valuable information on the upper atmosphere. It focuses its attention on altitudes from 7 to 90 km—between the highest mountains and the edge of space—and measures concentrations of ozone, aerosols and nitrogen dioxide.\r\n\r\nData provided by OSIRIS helps scientists better understand the impact of human activities and natural phenomena on the environment and climate." }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13571, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 8541, "uuid": "0acdf61fc0444329869ce51541494552", "short_code": "instr", "title": "Envisat - MIPAS (Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) Instrument", "abstract": "The Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) is one of the ten instruments onboard the Envisat satellite launched from Kourou (French Guyana) on the 28th February 2002 and operated by the European Space Agency (ESA). It operates as a Fourier transform spectrometer for the measurement of high-resolution gaseous emission spectra at the Earth's limb. It operates in the near- to mid-infrared, where many of the main atmospheric trace gases have important emission features. Its main objectives are to provide simultaneous and global measurements of the middle atmosphere dynamics, radiation budget and chemical composition (O3, H2O, CH4, N2O, HNO3, NO2), and to monitor stratospheric ozone and CFCs." }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13572, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 8029, "uuid": "10c100fc807d4ccf8b5f899c93a279ac", "short_code": "instr", "title": "Envisat - SCIAMACHY", "abstract": "The Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) is one of the ten instruments onboard the Envisat satellite launched from Kourou (French Guyana) on the 28th of February 2002 and operated by the European Space Agency (ESA)." }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13573, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 11045, "uuid": "07925992cfa542c1b3f608e3f57f0969", "short_code": "instr", "title": "ENVISAT GOMOS", "abstract": "GOMOS measures atmospheric constituents by spectral analysis of the spectral bands between 250 nm to 675 nm, 756 nm to 773 nm, and 926 nm to 952 nm. Additionally, two photometers operate in two spectral channels; between 470 nm to 520 nm and 650 nm to 700 nm, respectively." }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } }, { "ob_id": 13574, "platform": { "ob_id": 1178, "uuid": "ea182db997924c3593261ec7dd0d5a31", "short_code": "plat", "title": "Earth Radiation Budget Satellite (ERBS)", "abstract": "One of the longest-running spacecraft missions to date, ERBS was launched on October 5, 1984 on the Space Shuttle Challenger and retired on October 14, 2005. The spacecraft was expected to have a two-year operation life, but ultimately, the mission provided scientific data about the Earth's ozone layer for more than two decades. In addition to the ERBE scanning and nonscanning instruments, the satellite also carried the Stratospheric Aerosol Gas Experiment (SAGE II)." }, "instrument": { "ob_id": 1179, "uuid": "f94040688f3e4f0eae5f5ebfa4f72a6d", "short_code": "instr", "title": "Stratospheric Aerosol and Gas Experiment II (SAGE II)", "abstract": "SAGE II is an instrument on board the ERBS satellite which used the solar occultation technique to measure global profiles of aerosol extinction, temperature, ozone, nitrogen dioxide and water vapour in the stratosphere and upper troposphere." }, "relatedTo": { "ob_id": 33010, "uuid": "1beeae47665547c2b65ab98af80325b8", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Merged SAGE II, Ozone_cci and OMPS-LP dataset of ozone profiles", "abstract": "The merged SAGE-CCI-OMPS+ dataset of ozone profiles is created using the data from several satellite instruments: SAGE II on ERBS; GOMOS, SCIAMACHY and MIPAS on Envisat; OSIRIS on Odin; ACE-FTS on SCISAT; OMPS on Suomi-NPP; POAM III on SPOT 4 and SAGE III on ISS." } } ] }, { "ob_id": 33014, "uuid": "fa1b258d150441779629cc077ff077b4", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Level 3 Total Ozone Merged Data Product", "abstract": "The dataset is a merged data record combining harmonized data from the Global Ozone Monitoring Experiment (GOME) onboard the second European Remote Sensing satellite (ERS-2), the Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) onboard the Environmental Satellite (ENVISAT), the Ozone Monitoring Instrument (OMI) onboard Aura, the GOME-2 instruments onboard the Meteorological Operational (MetOp) satellites A and B, and the Tropospheric Monitoring Instrument (TROPOMI) onboard the Seninel-5 Precursor (S5-P) satellite.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12608, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 8029, "uuid": "10c100fc807d4ccf8b5f899c93a279ac", "short_code": "instr", "title": "Envisat - SCIAMACHY", "abstract": "The Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) is one of the ten instruments onboard the Envisat satellite launched from Kourou (French Guyana) on the 28th of February 2002 and operated by the European Space Agency (ESA)." }, "relatedTo": { "ob_id": 33014, "uuid": "fa1b258d150441779629cc077ff077b4", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Level 3 Total Ozone Merged Data Product", "abstract": "The dataset is a merged data record combining harmonized data from the Global Ozone Monitoring Experiment (GOME) onboard the second European Remote Sensing satellite (ERS-2), the Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) onboard the Environmental Satellite (ENVISAT), the Ozone Monitoring Instrument (OMI) onboard Aura, the GOME-2 instruments onboard the Meteorological Operational (MetOp) satellites A and B, and the Tropospheric Monitoring Instrument (TROPOMI) onboard the Seninel-5 Precursor (S5-P) satellite." } }, { "ob_id": 12611, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 2747, "uuid": "452137151c90431389e1177e79f4cbcb", "short_code": "instr", "title": "Global Ozone Monitoring Experiment (GOME)", "abstract": "Global Ozone Monitoring Experiment, a nadir-scanning ultraviolet and visible spectrometer for global monitoring of atmospheric Ozone, was launched on-board ERS-2 in April 1995. GOME delivers global observations of total ozone, nitrogen dioxide and related cloud information." }, "relatedTo": { "ob_id": 33014, "uuid": "fa1b258d150441779629cc077ff077b4", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Level 3 Total Ozone Merged Data Product", "abstract": "The dataset is a merged data record combining harmonized data from the Global Ozone Monitoring Experiment (GOME) onboard the second European Remote Sensing satellite (ERS-2), the Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) onboard the Environmental Satellite (ENVISAT), the Ozone Monitoring Instrument (OMI) onboard Aura, the GOME-2 instruments onboard the Meteorological Operational (MetOp) satellites A and B, and the Tropospheric Monitoring Instrument (TROPOMI) onboard the Seninel-5 Precursor (S5-P) satellite." } }, { "ob_id": 12612, "platform": { "ob_id": 3883, "uuid": "ba8eaadcf91b46b2b5a4d60b6b96866a", "short_code": "plat", "title": "EOS-AURA", "abstract": "Aura (Latin for breeze) was launched July 15, 2004. The design life is five years with an operational goal of six years. Aura flies in formation about 15 minutes behind Aqua. Aura is part of the Earth Observing System (EOS), a program dedicated to monitoring the complex interactions that affect the globe using NASA satellites and data systems. EOS-Aura's instruments are HIRDLS, MLS, OMI and TES." }, "instrument": { "ob_id": 4119, "uuid": "60dc682c4a9941dfb145d4064c0af633", "short_code": "instr", "title": "Ozone Monitoring instrument (OMI)", "abstract": "The Ozone Monitoring Instrument (OMI) flies on NASA's Aura satellite, (launched on 15 July 2004). The Aura satellite is focussed on observing atmospheric chemistry, in order to contribute largely in answering the following major environmental questions: Is the ozone layer recovering as expected? \nWhat are the sources of tropospheric pollutants, their chemical transformation and their transport? \nHow is Earth's climate changing?" }, "relatedTo": { "ob_id": 33014, "uuid": "fa1b258d150441779629cc077ff077b4", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Level 3 Total Ozone Merged Data Product", "abstract": "The dataset is a merged data record combining harmonized data from the Global Ozone Monitoring Experiment (GOME) onboard the second European Remote Sensing satellite (ERS-2), the Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) onboard the Environmental Satellite (ENVISAT), the Ozone Monitoring Instrument (OMI) onboard Aura, the GOME-2 instruments onboard the Meteorological Operational (MetOp) satellites A and B, and the Tropospheric Monitoring Instrument (TROPOMI) onboard the Seninel-5 Precursor (S5-P) satellite." } }, { "ob_id": 12613, "platform": { "ob_id": 8207, "uuid": "3f2dbe69fe4c40ee9e1e8be87e15a1d5", "short_code": "plat", "title": "Metop-A", "abstract": "Metop-A, launched on 19 October 2006, represents the first in a series of three satellites forming the space segment of the EUMETSAT Polar System (EPS). Metop-A is Europe's first polar-orbiting meteorological satellite" }, "instrument": { "ob_id": 8208, "uuid": "b2dd8e99b1944c5ca964b6baa8e0877f", "short_code": "instr", "title": "GOME-2", "abstract": "Data from the GOME-2 instrument on board the Eumetsat EPS MetOp satellite. GOME-2 is a spectrometer that measures both the radiance component of the light reflected by the Sun-illuminated Earth's atmosphere and the direct Sun light. The measurements are used to obtain detailed information on global trace gas distributions of ozone, nitrogen dioxide, water vapor, bromine oxide and other trace gases as well as aerosol properties." }, "relatedTo": { "ob_id": 33014, "uuid": "fa1b258d150441779629cc077ff077b4", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Level 3 Total Ozone Merged Data Product", "abstract": "The dataset is a merged data record combining harmonized data from the Global Ozone Monitoring Experiment (GOME) onboard the second European Remote Sensing satellite (ERS-2), the Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) onboard the Environmental Satellite (ENVISAT), the Ozone Monitoring Instrument (OMI) onboard Aura, the GOME-2 instruments onboard the Meteorological Operational (MetOp) satellites A and B, and the Tropospheric Monitoring Instrument (TROPOMI) onboard the Seninel-5 Precursor (S5-P) satellite." } }, { "ob_id": 12614, "platform": { "ob_id": 8299, "uuid": "84a6355ac58249cc8c636e77a243c86a", "short_code": "plat", "title": "Metop-B", "abstract": "Metop-B, launched on the 17th September 2012, is the second in a series of three satellites forming the space segment of the EUMETSAT Polar System (EPS)." }, "instrument": { "ob_id": 8208, "uuid": "b2dd8e99b1944c5ca964b6baa8e0877f", "short_code": "instr", "title": "GOME-2", "abstract": "Data from the GOME-2 instrument on board the Eumetsat EPS MetOp satellite. GOME-2 is a spectrometer that measures both the radiance component of the light reflected by the Sun-illuminated Earth's atmosphere and the direct Sun light. The measurements are used to obtain detailed information on global trace gas distributions of ozone, nitrogen dioxide, water vapor, bromine oxide and other trace gases as well as aerosol properties." }, "relatedTo": { "ob_id": 33014, "uuid": "fa1b258d150441779629cc077ff077b4", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Level 3 Total Ozone Merged Data Product", "abstract": "The dataset is a merged data record combining harmonized data from the Global Ozone Monitoring Experiment (GOME) onboard the second European Remote Sensing satellite (ERS-2), the Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) onboard the Environmental Satellite (ENVISAT), the Ozone Monitoring Instrument (OMI) onboard Aura, the GOME-2 instruments onboard the Meteorological Operational (MetOp) satellites A and B, and the Tropospheric Monitoring Instrument (TROPOMI) onboard the Seninel-5 Precursor (S5-P) satellite." } }, { "ob_id": 12615, "platform": { "ob_id": 26439, "uuid": "ea7449d8d5d54deea6d33f1736f72008", "short_code": "plat", "title": "Sentinel 5 Precursor", "abstract": "Sentinel 5P was launched by the European Space Agency (ESA) to become the precursor to Sentinel 5. The satellite was launched on 13th October 2017." }, "instrument": { "ob_id": 26444, "uuid": "4b05aa731b9a4ad0963362b24d1083ae", "short_code": "instr", "title": "TROPOspheric Monitoring Instrument (TROPOMI)", "abstract": "The TROPOspheric Monitoring Instrument (TROPOMI) uses 4 different grating spectrometers covering 8 spectral bands in the range 270-2385 nm. The main aim for this instrument is observing atmospheric chemistry. TROPOMI will be able to detect many species in the atmosphere such as BrO, CH4, ClO, CO, CO2, H2O, HCHO, N2O, NO, NO2, NO3, O2, O3, O4, OClO, SO2 and aerosol. It scans using a push-broom technique with a swath of 2600km." }, "relatedTo": { "ob_id": 33014, "uuid": "fa1b258d150441779629cc077ff077b4", "short_code": "acq", "title": "Acquisition process for the ESA Ozone Climate Change Initiative: Level 3 Total Ozone Merged Data Product", "abstract": "The dataset is a merged data record combining harmonized data from the Global Ozone Monitoring Experiment (GOME) onboard the second European Remote Sensing satellite (ERS-2), the Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) onboard the Environmental Satellite (ENVISAT), the Ozone Monitoring Instrument (OMI) onboard Aura, the GOME-2 instruments onboard the Meteorological Operational (MetOp) satellites A and B, and the Tropospheric Monitoring Instrument (TROPOMI) onboard the Seninel-5 Precursor (S5-P) satellite." } } ] }, { "ob_id": 33041, "uuid": "b44b3f35d2174ed7ab0b326562489ff8", "short_code": "acq", "title": "Kruger DEM and Orthomosaics", "abstract": "Data acquisition: Flight campaign using multispectral camera\\n2.) Processing of raw aerial imagery using Catalyst Enterprise: metadata preparation, tie-point collection, height derivation, post-processing\\n3.) Data upload preparation: resampling, subsetting and projection of data", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [] }, { "ob_id": 33046, "uuid": "8d6bd3620bf24eefb63e86861c8d5eeb", "short_code": "acq", "title": "Acquisition for the ESA Climate Change Initiative Sea Level altimeter (ENVISAT and SARAL) coastal sea level anomalies datasets", "abstract": "Acquisition for the ESA Climate Change Initiative Sea Level altimeter coastal sea level anomalies datasets from the ENVISAT and SARAL satellites.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12619, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 13692, "uuid": "c1015c7477334094ab86ef8a1f6ee3ce", "short_code": "instr", "title": "Radar Altimeter 2 (RA-2)", "abstract": "Radar Altimeter 2 (RA-2) is an instrument for determining the two-way delay of the radar echo from the Earth's surface to a very high precision: less than a nanosecond. It also measures the power and the shape of the reflected radar pulses.\r\n\r\nIt is a nadir-looking pulse-limited radar altimeter based on the heritage of ERS-1 RA functioning at the main nominal frequency of 13.575 GHz (Ku Band), which has been selected as a good compromise between the affordable antenna dimension that provides the necessary gain and the relatively low attenuation which experience the signals propagating through the troposphere." }, "relatedTo": { "ob_id": 33046, "uuid": "8d6bd3620bf24eefb63e86861c8d5eeb", "short_code": "acq", "title": "Acquisition for the ESA Climate Change Initiative Sea Level altimeter (ENVISAT and SARAL) coastal sea level anomalies datasets", "abstract": "Acquisition for the ESA Climate Change Initiative Sea Level altimeter coastal sea level anomalies datasets from the ENVISAT and SARAL satellites." } }, { "ob_id": 12620, "platform": { "ob_id": 26738, "uuid": "ae4858d28dec45a1805b8de5029e8b88", "short_code": "plat", "title": "SARAL (Satellite with ARGOS and AltiKa)", "abstract": "The SARAL (Satellite with ARGOS and AltiKa) is a French (CNES) / Indian (ISRO) satellite mission primarily focused on observing the oceans." }, "instrument": { "ob_id": 26737, "uuid": "43854b24bec449a7a07eedc63b6b9690", "short_code": "instr", "title": "AltiKa", "abstract": "The Ka-band Altimeter (AltiKa) is flown on the SARAL satellite" }, "relatedTo": { "ob_id": 33046, "uuid": "8d6bd3620bf24eefb63e86861c8d5eeb", "short_code": "acq", "title": "Acquisition for the ESA Climate Change Initiative Sea Level altimeter (ENVISAT and SARAL) coastal sea level anomalies datasets", "abstract": "Acquisition for the ESA Climate Change Initiative Sea Level altimeter coastal sea level anomalies datasets from the ENVISAT and SARAL satellites." } } ] }, { "ob_id": 33056, "uuid": "2bfe33f3daa24ebca447f98367edc5dd", "short_code": "acq", "title": "Acquisition process for the ESA Greenhouse Gases Climate Change Initiative (GHG_cci): Column averaged carbon dioxide from OCO-2 generated with the FOCAL algorithm", "abstract": "Data was acquired from the OCO-2 satellite instrument.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12621, "platform": { "ob_id": 33055, "uuid": "de8699a648ed4314bc41cd2c5e4a3ccd", "short_code": "plat", "title": "OCO-2", "abstract": "The Orbiting Carbon Observatory -2 (OCO-2) is a NASA satellite designed to measure carbon dioxide globally from space." }, "instrument": { "ob_id": 33054, "uuid": "2fe83d42d7f9476b9e7bec792f9cfa59", "short_code": "instr", "title": "OCO-2", "abstract": "The Orbiting Carbon Observatory (OCO-2) instrument is a nadir-scanning high resolution short wave spectrometer flown on the OCO-2 satellite. It has been designed to produce global measurements of carbon dioxide in the atmosphere." }, "relatedTo": { "ob_id": 33056, "uuid": "2bfe33f3daa24ebca447f98367edc5dd", "short_code": "acq", "title": "Acquisition process for the ESA Greenhouse Gases Climate Change Initiative (GHG_cci): Column averaged carbon dioxide from OCO-2 generated with the FOCAL algorithm", "abstract": "Data was acquired from the OCO-2 satellite instrument." } } ] }, { "ob_id": 33077, "uuid": "d8f35a76a6af4f348e69354fe1ab94ec", "short_code": "acq", "title": "Iceland Greenland seas Project (IGP):METEK MRR2 Micro Rain Radar", "abstract": "The Micro Rain Radar (MRR), manufactured by Meteorologische Messtechnik GmbH (Metek) is a frequency modulated (FM), continuous wave (CW) Radar (Radio Detection and Ranging). The MRR transmits at a frequency of 24.230 GHz, which is modulated in a saw tooth pattern. This FM method enables the estimation of target range in CW scanning mode. The height range configuration during the IGP campaign was set from 75 m to 2325 m at 31 range gates (range bin width is 125m). Due to near field effects, the first two range gates (75 m and 150 m) and due to noise the last range gate (2325 m) are discarded, leaving a range of 225 m to 2250 m. One scan and processing cycle of the MRR is achieved in 10 s. During this time, the MRR obtains the doppler spectral density at each range gate. The primary retrieved parameter from doppler spectral density is the fall (or terminal) velocity vT of the precipitation targets. Metek provides a post processing tool that is able to retrieve drop size distribution and corresponding moments,\r\nfor example liquid water content (LWC), rain rate (RR) and Radar Reflectivity (Ze). That method only provides reasonable results for liquid precipitation and in the absence of turbulence, as well as updrafts. In the presence of the latter two conditions, aliasing of doppler spectral density can\r\ncause erroneous vT and range gate allocation. During snow events, it is also possible that vT is wrongly interpreted and insufficient noise removal is present, especially during clear sky conditions. Maahn and Kollias 2012 [1] provide a tool (IMProToo), that is able to dealiase the doppler spectral density and hence improve vT estimates, as well as the range gate estimate. Their tool also enables improved Ze, directly estimated from integrated doppler spectral density. Both rain and snow rate can be obtained from Ze using empirical relationships [2]. As snow events dominated rain events during the IGP campaign, the IMProTool was used in addition to the regular data processing by the instrument manufacturer. Both types of data files are included in this dataset.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12622, "platform": { "ob_id": 26503, "uuid": "e494bef9ef884794a65a341e58205eb2", "short_code": "plat", "title": "Alliance Ship", "abstract": "Alliance is a research ship. The 93 meters, 3,180 t NATO ship NRV ALLIANCE was designed in the mid 80’s as a quiet acoustic research platform. It is capable of operating in all oceans strategically important to NATO nations. ALLIANCE enables scientists and engineers from the Centre and partner nations to conduct a wide range of experiments. The ship is equipped with modern scientific instruments, a sophisticated navigation system, and its deck comprises of a vast array of winches (some fitted and some removable), heavy cranes, a lateral frame and a stern U-frame (including a large 4 drum main tow winch for large arrays). This variety of deck equipment allows a large variety of launch and recovery of scientific and engineering sensors, oceanographic instruments, autonomous vehicles and tethered devices." }, "instrument": { "ob_id": 33076, "uuid": "79ffe7808f4f41e0903a67836dd096a4", "short_code": "instr", "title": "Iceland Greenland seas Project (IGP):METEK MRR2 Micro Rain Radar", "abstract": "The Micro Rain Radar (MRR), manufactured by Meteorologische Messtechnik GmbH (Metek) is a frequency modulated (FM), continuous wave (CW) Radar (Radio Detection and Ranging). The MRR transmits at a frequency of 24.230 GHz, which is modulated in a saw tooth pattern. This FM method enables the estimation of target range in CW scanning mode. The height range configuration during the IGP campaign was set from 75 m to 2325 m at 31 range gates (range bin width is 125m). Due to near field effects, the first two range gates (75 m and 150 m) and due to noise the last range gate (2325 m) are discarded, leaving a range of 225 m to 2250 m. One scan and processing cycle of the MRR is achieved in 10 s. During this time, the MRR obtains the doppler spectral density at each range gate. The primary retrieved parameter from doppler spectral density is the fall (or terminal) velocity vT of the precipitation targets. Metek provides a post processing tool that is able to retrieve drop size distribution and corresponding moments,\r\nfor example liquid water content (LWC), rain rate (RR) and Radar Reflectivity (Ze). That method only provides reasonable results for liquid precipitation and in the absence of turbulence, as well as updrafts. In the presence of the latter two conditions, aliasing of doppler spectral density can\r\ncause erroneous vT and range gate allocation. During snow events, it is also possible that vT is wrongly interpreted and insufficient noise removal is present, especially during clear sky conditions. Maahn and Kollias 2012 [1] provide a tool (IMProToo), that is able to dealiase the doppler spectral density and hence improve vT estimates, as well as the range gate estimate. Their tool also enables improved Ze, directly estimated from integrated doppler spectral density. Both rain and snow rate can be obtained from Ze using empirical relationships [2]. As snow events dominated rain events during the IGP campaign, the IMProTool was used in addition to the regular data processing by the instrument manufacturer. Both types of data files are included in this dataset." }, "relatedTo": { "ob_id": 33077, "uuid": "d8f35a76a6af4f348e69354fe1ab94ec", "short_code": "acq", "title": "Iceland Greenland seas Project (IGP):METEK MRR2 Micro Rain Radar", "abstract": "The Micro Rain Radar (MRR), manufactured by Meteorologische Messtechnik GmbH (Metek) is a frequency modulated (FM), continuous wave (CW) Radar (Radio Detection and Ranging). The MRR transmits at a frequency of 24.230 GHz, which is modulated in a saw tooth pattern. This FM method enables the estimation of target range in CW scanning mode. The height range configuration during the IGP campaign was set from 75 m to 2325 m at 31 range gates (range bin width is 125m). Due to near field effects, the first two range gates (75 m and 150 m) and due to noise the last range gate (2325 m) are discarded, leaving a range of 225 m to 2250 m. One scan and processing cycle of the MRR is achieved in 10 s. During this time, the MRR obtains the doppler spectral density at each range gate. The primary retrieved parameter from doppler spectral density is the fall (or terminal) velocity vT of the precipitation targets. Metek provides a post processing tool that is able to retrieve drop size distribution and corresponding moments,\r\nfor example liquid water content (LWC), rain rate (RR) and Radar Reflectivity (Ze). That method only provides reasonable results for liquid precipitation and in the absence of turbulence, as well as updrafts. In the presence of the latter two conditions, aliasing of doppler spectral density can\r\ncause erroneous vT and range gate allocation. During snow events, it is also possible that vT is wrongly interpreted and insufficient noise removal is present, especially during clear sky conditions. Maahn and Kollias 2012 [1] provide a tool (IMProToo), that is able to dealiase the doppler spectral density and hence improve vT estimates, as well as the range gate estimate. Their tool also enables improved Ze, directly estimated from integrated doppler spectral density. Both rain and snow rate can be obtained from Ze using empirical relationships [2]. As snow events dominated rain events during the IGP campaign, the IMProTool was used in addition to the regular data processing by the instrument manufacturer. Both types of data files are included in this dataset." } } ] }, { "ob_id": 33078, "uuid": "fa2470f761fd4c14aa294921eb5c0bfc", "short_code": "acq", "title": "APPRAISE Clouds - University of Manchester Aerosol Mass Spectrometer", "abstract": "APPRAISE Clouds - University of Manchester Aerosol Mass Spectrometer", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12623, "platform": { "ob_id": 817, "uuid": "0d60dd064b6449b09f5c7fd4c41bd693", "short_code": "plat", "title": "NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "The National Centre for Atmospheric Science's Chilbolton Atmospheric Observatory, formerly known as the Chilbolton Facility for Atmospheric and Radio Research (CFARR), is hosted by the Science and Technology Facilities Council (STFC) in rural Hampshire in the South of England. Through a combination of long-term observations and tailored operations it provides national capability for the study of clouds, rainfall, boundary-layer processes and aerosols, and is particularly well suited as a site for hosting field campaigns involving visiting instruments.\r\n\r\nThe CAO site is located one mile south of Chilbolton Village, 6 miles south of Andover, Hampshire. The site was used as an airfield during the Second World War and is relatively flat and slightly elevated above the surrounding area.\r\n\r\nThe observatory operates more than twenty major instruments, many continuously, while others are available on-demand according to user configuration requirements. The portfolio includes a powerful combination of dual-polarisation Doppler radars, lidars, radiometers, and supporting instruments; the continuous round-the-clock operation of lidar and cloud radar instruments at Chilbolton is unique within the UK. These are supplemented by a suite of meteorological instrumentation including rain gauges, and disdrometers. A multi-wavelength sun photometer provides continuous measurements of aerosol optical depth in clear skies, and contributes to the Aerosol Robotic Network (AERONET).\r\n\r\nThe Chilbolton Advanced Meteorological Radar (CAMRa) is mounted on a 25-metre, fully steerable antenna, and is able to probe clouds and storms with unparalleled sensitivity and resolution. In addition, zenith-pointing polarimetric, Doppler 35 GHz and 94 GHz cloud radars are routinely operated for detailed microphysical studies of cloud processes and cloud climatology. A transportable, scanning 35 GHz cloud radar system is also hosted at Chilbolton, further enhancing the available capability.\r\n\r\nChilbolton was one of the pilot cloud profiling sites for the CLOUDNET project, and continues to make observations that feed into the Aerosol Clouds and Trace Gases Research Infrastructure (ACTRIS). Capability at the site will be enhanced in the next few years, with the incorporation of a Raman lidar, with the ambition being for this to form an ACTRIS observational platform for aerosol profiling.\r\n\r\nThe presence (since January 2016) of a Defra air quality monitoring supersite at the observatory site (providing rural background measurements as part of national and transboundary networks) offers the research community further excellent opportunities for intercomparison campaigns and instrument evaluation.\r\n\r\nWIGOS id: \r\n0-826-300-3\r\n0-826-300-4\r\n0-826-300-5\r\n\r\nThe Met Office also operated a boundary layer wind profiler at the site (now operated by NCAS AMOF), for which the site was given a WMO ID 03754." }, "instrument": { "ob_id": 99, "uuid": "98ab5fc9e63c403792e90e6b9b69e3c8", "short_code": "instr", "title": "University of Manchester/UFAM: Aerosol Mass Spectrometer (AMS) - formerly umist-ams", "abstract": "The Aerodyne aerosol mass spectrometer (AMS) is the only currently available instrument capable of providing quantitative size and chemical mass loading information in real-time for non-refractory sub-micron aerosol particles. The AMS couples size-resolved particle sampling and mass spectrometric techniques into a single real-time measurement system. The Aerodyne AMS has been deployed world-wide at fixed sites, and on mobile laboratory, ship and aircraft platforms. Over 100 instruments are in use in industrial, academic and government laboratories.\r\n\r\nScientifically, the instrument can deliver quantitative mass concentrations of the major non-refractory chemical species present in submicron particles (ammonium, nitrate, sulphate, organics and non-sea-salt chloride) in microgrammes per cubic metre. It is also capable of delivering these concentrations as a function of diameter as a dM/dlog(D) distribution. Further to this, information on the chemical nature of the organic fraction can be derived by inspecting the relative sizes of the peaks within the mass spectrum. In order to produce fully quality assured and meaningful results, the data must be processed offline or near-real-time. The Compact Time-of-Flight AMS (C-ToF-AMS) is a version that enables continuous acquisition of complete mass spectra (1-800 m/z) of all sampled particles at rates as fast as 80 kHz." }, "relatedTo": { "ob_id": 33078, "uuid": "fa2470f761fd4c14aa294921eb5c0bfc", "short_code": "acq", "title": "APPRAISE Clouds - University of Manchester Aerosol Mass Spectrometer", "abstract": "APPRAISE Clouds - University of Manchester Aerosol Mass Spectrometer" } } ] }, { "ob_id": 33112, "uuid": "586b8018048f428093160db7af90c7b7", "short_code": "acq", "title": "Surface Velocity Map of the Afar Rift Zone from 2014-19", "abstract": "Surface Velocity Map of the Afar Rift Zone from 2014-19", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12624, "platform": { "ob_id": 12319, "uuid": "b6a54b30cf1f45d79e08117ccabeceb6", "short_code": "plat", "title": "Sentinel 1A", "abstract": "Sentinel 1A is the first of the European Space Agency (ESA) Sentinel series. It was launched on 3rd April 2014." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 33112, "uuid": "586b8018048f428093160db7af90c7b7", "short_code": "acq", "title": "Surface Velocity Map of the Afar Rift Zone from 2014-19", "abstract": "Surface Velocity Map of the Afar Rift Zone from 2014-19" } } ] }, { "ob_id": 33125, "uuid": "cb3fddd6107e4490a6594eb431314689", "short_code": "acq", "title": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries", "abstract": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 14240, "uuid": "b298ac0e2c3e4c49824f6a5e8b75b324", "short_code": "mpop", "title": "Eyjafjallajokull volcanic ash cloud NERC DO228-101 D-CALM Aircraft flight details", "abstract": "The NERC DO228-101 D-CALM Aircraft was operated during the Eyjafjallajokull volcanic ash cloud event over Europe in April 2010." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12625, "platform": { "ob_id": 1445, "uuid": "7fc9392157ad4e41be84cc2f7cbb50e0", "short_code": "plat", "title": "DLR Falcon 20 E-5 aircraft", "abstract": "Among its fleet of highly modified aircraft the twin engine jet Falcon 20 E covers the largest flight envelope and is one of the few aircraft in Europe which is able to reach the stratosphere well above the cruise altitude of most airliners. The Falcon offers unique modifications and features which make it a true multipurpose sensor platform which can be configured to the individual needs of multiple applications. The Falcon 20E is operated by DLR and based at the Oberpfaffenhofen Flight Facility in Germany. This aircraft is part of the EUFAR TA fleet." }, "instrument": { "ob_id": 20353, "uuid": "86b389fa5c144a25ac4173a6f91f204e", "short_code": "instr", "title": "Core instruments on the DLR Falcon20 aircraft", "abstract": "Core instruments onboard the \tDLR Falcon20 aircraft operated by DLR (Deutsches Zentrum für Luft- und Raumfahrt e.V.). May include: Non dew/frost point hygrometer (lyman Alpha), Inertial Reference/Navigation System, Incident flow vector probe, Temperature sensors (in situ) (Rosemount) plus others depending on the flight. Used in EUFAR flights." }, "relatedTo": { "ob_id": 33125, "uuid": "cb3fddd6107e4490a6594eb431314689", "short_code": "acq", "title": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries", "abstract": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries" } }, { "ob_id": 12626, "platform": { "ob_id": 6398, "uuid": "32ce062fe89a4c1eb8ab3e67c1f9ad45", "short_code": "plat", "title": "FA20 - SAFIRE aircraft", "abstract": "FA20 - SAFIRE is a large tropospheric research aircraft (ATR42-320 type) operated by the Service des Avions Francais Instrumentés pour la Recherche en Environnement (SAFIRE), France. This aircraft is part of the EUFAR TA fleet." }, "instrument": { "ob_id": 20345, "uuid": "b1f5d0b1910f4aa0943f009886940507", "short_code": "instr", "title": "SAFIRE Falcon20 Core Instrument suite", "abstract": "SAFIRE (Service des Avions Francais Instrumentés pour la Recherche en Environnement) operated core instruments on board the SAFIRE-Falcon20 aircraft. Includes Inertial Reference/Navigation System, Incident flow vector probe, Dew/Frost-point hygrometer (Buck and General Eastern), and AVAPS Dropsonde. Other optional instruments may be operated. Used in EUFAR flights." }, "relatedTo": { "ob_id": 33125, "uuid": "cb3fddd6107e4490a6594eb431314689", "short_code": "acq", "title": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries", "abstract": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries" } }, { "ob_id": 12627, "platform": { "ob_id": 11911, "uuid": "8291c6659fb04c0ead2af01941a79c0e", "short_code": "plat", "title": "ATR42 - SAFIRE aircraft", "abstract": "ATR42-SAFIRE is a large tropospheric research aircraft operated by Service des Avions Francais Instrumentés pour la Recherche en Environnement (SAFIRE), France.\r\nThe ATR 42 is a twin-turboprop, short-haul regional airliner built in France and Italy by ATR. The name \"42\" comes from the aircraft's standard seating, which varies from 40 to 52. The ATR-42 320 was designed to have better performance especially in hot and high conditions. This aircraft is part of the EUFAR TA fleet" }, "instrument": { "ob_id": 20344, "uuid": "9229a752355a4684b4a6c3b1dbdbe160", "short_code": "instr", "title": "SAFIRE ATR42 Core Instrument suite", "abstract": "SAFIRE (Service des Avions Francais Instrumentés pour la Recherche en Environnement) operated core instruments on board the SAFIRE-ATR42 aircraft. Includes Inertial Reference/Navigation System, Non dew/frost point hygrometer, Incident flow vector probe, Dew/Frost-point hygrometer, Global Positioning System, Broad Band Radiometer (x2), Temperature sensor (in situ) and Inertial Reference/Navigation System. Other optional instruments may be operated. Used in EUFAR flights." }, "relatedTo": { "ob_id": 33125, "uuid": "cb3fddd6107e4490a6594eb431314689", "short_code": "acq", "title": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries", "abstract": "Eyjafjallajokull Volcanic Ash Cloud SAFIRE and DLR flight summaries" } } ] }, { "ob_id": 33143, "uuid": "76940e44b2b54a9b9b354fa5ce762020", "short_code": "acq", "title": "BUCL network of temperature and Meteorological sensors", "abstract": "HiTemp networks of temperature and meteorological sensors installed within the Birmingham conurbation", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12629, "platform": { "ob_id": 13921, "uuid": "e448a957fc53401794e48a23c265c25f", "short_code": "plat", "title": "Birmingham Urban Climate Laboratory (BUCL) network of sites for HiTemp", "abstract": "The HiTemp project (High Density Measurements within the Urban Environment), operated networks of meteorological sensors installed within the Birmingham conurbaton: Approximately 250 low-cost, battery-powered WiFi air temperature sensors and 30 full automatic weather stations (AWS), measuring temperature, precipitation, relative humidity, wind speed and direction, pressure, solar radiation. The design is based around a nested network of sensors:\r\n\r\n Network 1 (coarse array): 30 AWS will be sited in primary electricity sub-stations (average spacing of 3km)\r\n Network 2 (wide array): 150 air temperature sensors located on schools (one in every medium super output area (MSOA), or areas containing a population of 7,200)\r\n Network 3 (fine array): 100 air temperature sensors located on lampposts in the CBD (50/km2)\r\n" }, "instrument": { "ob_id": 13920, "uuid": "52a9606a224c4d72ad0aa4fe2bb133e6", "short_code": "instr", "title": "Aginova Sentinel Micro Temperature sensor", "abstract": "Small WiFi battery based Temperature sensor used in the HiTemp project" }, "relatedTo": { "ob_id": 33143, "uuid": "76940e44b2b54a9b9b354fa5ce762020", "short_code": "acq", "title": "BUCL network of temperature and Meteorological sensors", "abstract": "HiTemp networks of temperature and meteorological sensors installed within the Birmingham conurbation" } }, { "ob_id": 12630, "platform": { "ob_id": 13921, "uuid": "e448a957fc53401794e48a23c265c25f", "short_code": "plat", "title": "Birmingham Urban Climate Laboratory (BUCL) network of sites for HiTemp", "abstract": "The HiTemp project (High Density Measurements within the Urban Environment), operated networks of meteorological sensors installed within the Birmingham conurbaton: Approximately 250 low-cost, battery-powered WiFi air temperature sensors and 30 full automatic weather stations (AWS), measuring temperature, precipitation, relative humidity, wind speed and direction, pressure, solar radiation. The design is based around a nested network of sensors:\r\n\r\n Network 1 (coarse array): 30 AWS will be sited in primary electricity sub-stations (average spacing of 3km)\r\n Network 2 (wide array): 150 air temperature sensors located on schools (one in every medium super output area (MSOA), or areas containing a population of 7,200)\r\n Network 3 (fine array): 100 air temperature sensors located on lampposts in the CBD (50/km2)\r\n" }, "instrument": { "ob_id": 14270, "uuid": "4aa77eb71d8a4cbb963654661a1ed1f7", "short_code": "instr", "title": "Vaisala WXT520 weather transmitters", "abstract": "Air temperature, relative humidity, wind speed, wind direction and atmospheric pressure were\r\nmeasured with Vaisala WXT520 weather transmitters " }, "relatedTo": { "ob_id": 33143, "uuid": "76940e44b2b54a9b9b354fa5ce762020", "short_code": "acq", "title": "BUCL network of temperature and Meteorological sensors", "abstract": "HiTemp networks of temperature and meteorological sensors installed within the Birmingham conurbation" } } ] }, { "ob_id": 33146, "uuid": "d5436a7c6e20464e94a7d6bf62c88c3d", "short_code": "acq", "title": "TOVS data acquisition onboard POES (1978-1998)", "abstract": "TOVS data acquisition onboard POES (1978-1998)", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 8, "uuid": "110154772fc04bdf8029022b40e19521", "short_code": "mpop", "title": "Mobile Platform Operation for: NOAA Polar Orbiting environmental satellites (POES)", "abstract": "The Polar Orbiting Environmental satellites consist of a polar orbiter series of satellites from TIROS-N, NOAA-6 through NOAA-14. The POES system includes the Advanced Very High Resolution Radiometer (AVHRR) and the Tiros Operational Vertical Sounder (TOVS).\r\n\r\nThe Polar Orbiting Environmental series of satellites commenced with TIROS-N (launched in October 1978) and continued with NOAA-A (launched in June 1979 and renamed NOAA-6), NOAA-C (launched in June 1981 and renamed NOAA-7), NOAA-E (launched in March 1983 and renamed NOAA-8), NOAA-F (launched in December 1984 and renamed NOAA-9), NOAA-G (launched in September 1986 and renamed NOAA-10), NOAA-H (launched in September 1988 and renamed NOAA-11), NOAA-D (launched in May 1991 and renamed NOAA-12), NOAA-I (launched in August 1993 and renamed NOAA-13) and NOAA-J (launched in December 1994 and renamed NOAA-14).\r\n\r\nThe POES satellite system offers the advantage of daily global coverage, by making nearly polar orbits roughly 14.1 times daily. Since the number of orbits per day is not an integer the sub orbital tracks do not repeat on a daily basis, although the local solar time of each satellite's passage is essentially unchanged for any latitude. The POES system includes the Advanced Very High Resolution Radiometer (AVHRR) and the Tiros Operational Vertical Sounder (TOVS).\r\n\r\nBecause of the polar orbiting nature of the POES series satellites, these satellites are able to collect global data on a daily basis for a variety of land, ocean, and atmospheric applications. Data from the POES series supports a broad range of environmental monitoring applications including weather analysis and forecasting, climate research and prediction, global sea surface temperature measurements, atmospheric soundings of temperature and humidity, ocean dynamics research, volcanic eruption monitoring, forest fire detection, global vegetation analysis, search and rescue, and many other applications." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12631, "platform": { "ob_id": 6, "uuid": "edbc618730c043a383b8fa9b8200cfb6", "short_code": "plat", "title": "NOAA Polar Orbiting environmental satellites (POES)", "abstract": "The Polar Orbiting Environmental satellites consist of a polar orbiter series of satellites from TIROS-N, NOAA-6 through NOAA-14. The POES system includes the Advanced Very High Resolution Radiometer (AVHRR) and the Tiros Operational Vertical Sounder (TOVS)." }, "instrument": { "ob_id": 20, "uuid": "3a58d003ac2f4236b17dd66c147b6f51", "short_code": "instr", "title": "TOVS - High-Resolution Infrared Sounder (HRIS)", "abstract": "The High-Resolution Infrared Sounder (HRIS) is one of 3 sub-instruments of the TIROS Operational Vertical Sounder (TOVS) system flown on successive spacecraft in the TIROS-N/NOAA series of Polar Orbiting Environmental Satellites (POES) since 1978.HRIS makes measurements in 19 regions of the infrared spectrum between 3.7 and 15 microns." }, "relatedTo": { "ob_id": 33146, "uuid": "d5436a7c6e20464e94a7d6bf62c88c3d", "short_code": "acq", "title": "TOVS data acquisition onboard POES (1978-1998)", "abstract": "TOVS data acquisition onboard POES (1978-1998)" } }, { "ob_id": 12632, "platform": { "ob_id": 6, "uuid": "edbc618730c043a383b8fa9b8200cfb6", "short_code": "plat", "title": "NOAA Polar Orbiting environmental satellites (POES)", "abstract": "The Polar Orbiting Environmental satellites consist of a polar orbiter series of satellites from TIROS-N, NOAA-6 through NOAA-14. The POES system includes the Advanced Very High Resolution Radiometer (AVHRR) and the Tiros Operational Vertical Sounder (TOVS)." }, "instrument": { "ob_id": 14, "uuid": "3539b96f18644d78aae71517fecfb7e2", "short_code": "instr", "title": "TOVS - Stratospheric Sounder Unit (SSU)", "abstract": "The Stratospheric Sounding Unit (SSU) is one of 3 sub-instruments of the TIROS Operational Vertical Sounder (TOVS) system flown on successive spacecraft in the TIROS-N/NOAA series of Polar Orbiting Environmental Satellites (POES) since 1978. SSU uses the technique of pressure modulation radiometry to measure radiation emitted by CO2 3 channels in the infra-red. This instrument has the highest vertical resolution in the stratosphere." }, "relatedTo": { "ob_id": 33146, "uuid": "d5436a7c6e20464e94a7d6bf62c88c3d", "short_code": "acq", "title": "TOVS data acquisition onboard POES (1978-1998)", "abstract": "TOVS data acquisition onboard POES (1978-1998)" } }, { "ob_id": 12633, "platform": { "ob_id": 6, "uuid": "edbc618730c043a383b8fa9b8200cfb6", "short_code": "plat", "title": "NOAA Polar Orbiting environmental satellites (POES)", "abstract": "The Polar Orbiting Environmental satellites consist of a polar orbiter series of satellites from TIROS-N, NOAA-6 through NOAA-14. The POES system includes the Advanced Very High Resolution Radiometer (AVHRR) and the Tiros Operational Vertical Sounder (TOVS)." }, "instrument": { "ob_id": 7, "uuid": "c7fa005e2095425392b18adbd7b40617", "short_code": "instr", "title": "TOVS - Microwave Sounding Unit (MSU)", "abstract": "The Microwave Sounding Unit (MSU) is one of 3 sub-instruments of the TIROS Operational Vertical Sounder (TOVS) system flown on successive spacecraft in the TIROS-N/NOAA series of Polar Orbiting Environmental Satellites (POES) since 1978. MSU measures thermal microwave radiation in the 4 regions of the oxygen emission spectrum at around 50GHz." }, "relatedTo": { "ob_id": 33146, "uuid": "d5436a7c6e20464e94a7d6bf62c88c3d", "short_code": "acq", "title": "TOVS data acquisition onboard POES (1978-1998)", "abstract": "TOVS data acquisition onboard POES (1978-1998)" } } ] }, { "ob_id": 33229, "uuid": "0026b8fe5d8b42a78d0050327b862c84", "short_code": "acq", "title": "Netatmo instrument network", "abstract": "Netatmo instrument network", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12634, "platform": { "ob_id": 33231, "uuid": "2c0e117f4aba451f8a6f9f7ef97604b5", "short_code": "plat", "title": "Netatmo Public Weather Stations (PWS) Network", "abstract": "Netatmo produce a range a 'smart' Public Weather Stations (PWS) that people can deploy in places such as homes, workspaces and other settings. These form a network around Europe forming the Netatmo Public Weather Stations (PWS) network." }, "instrument": { "ob_id": 33232, "uuid": "bc64538f3fa7421f8d83b6875dde76e1", "short_code": "instr", "title": "Public Weather Station (PWS)", "abstract": "Public Weather Stations (PWS) are meteorological stations that members of the public set up and provide data to various crowd sourced Public Weather Stations (PWS) networks.\r\n\r\nDetails of the individual instruments may be unknown, and thus the characteristics of the sensors can not be stated.\r\n\r\nThey may include one or more sensors covering parameter such as:\r\n\r\n - pressure\r\n - temperature\r\n - humidity\r\n - rainfall rates/accumulations\r\n - wind speed and direction" }, "relatedTo": { "ob_id": 33229, "uuid": "0026b8fe5d8b42a78d0050327b862c84", "short_code": "acq", "title": "Netatmo instrument network", "abstract": "Netatmo instrument network" } } ] }, { "ob_id": 33230, "uuid": "a07497435c034d15b66e82cfd73b5aec", "short_code": "acq", "title": "Met Office WOW instrument network", "abstract": "Met Office WOW instrument network", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12635, "platform": { "ob_id": 33233, "uuid": "baae7a1856824765bb6f2bc1ee12f1a0", "short_code": "plat", "title": "Met Office WOW Public Weather Stations (PWS) Network", "abstract": "The Met Office Met Office WOW Public Weather Stations (PWS) Network consists of crowd-sourced PWS instrument from which data are uploaded to the Met Office WOW service. Though the majority of sensors are within Europe there are a number which are further afield too." }, "instrument": { "ob_id": 33232, "uuid": "bc64538f3fa7421f8d83b6875dde76e1", "short_code": "instr", "title": "Public Weather Station (PWS)", "abstract": "Public Weather Stations (PWS) are meteorological stations that members of the public set up and provide data to various crowd sourced Public Weather Stations (PWS) networks.\r\n\r\nDetails of the individual instruments may be unknown, and thus the characteristics of the sensors can not be stated.\r\n\r\nThey may include one or more sensors covering parameter such as:\r\n\r\n - pressure\r\n - temperature\r\n - humidity\r\n - rainfall rates/accumulations\r\n - wind speed and direction" }, "relatedTo": { "ob_id": 33230, "uuid": "a07497435c034d15b66e82cfd73b5aec", "short_code": "acq", "title": "Met Office WOW instrument network", "abstract": "Met Office WOW instrument network" } } ] }, { "ob_id": 33250, "uuid": "d6dfab9e961646509a12e5216f1b998b", "short_code": "acq", "title": "EUMR Glider deployment", "abstract": "iRobot M1 Seaglider deployed in the North Sea as part of the EUMarineRobots (EUMR) project", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [] }, { "ob_id": 33266, "uuid": "c7698febb7fd4fff9a53d526cb54d866", "short_code": "acq", "title": "CCI Biomass, v3.0", "abstract": "CCI Biomass, v3.0", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12636, "platform": { "ob_id": 12319, "uuid": "b6a54b30cf1f45d79e08117ccabeceb6", "short_code": "plat", "title": "Sentinel 1A", "abstract": "Sentinel 1A is the first of the European Space Agency (ESA) Sentinel series. It was launched on 3rd April 2014." }, "instrument": { "ob_id": 12313, "uuid": "0604b6ac4fb24640895c84a25edfd078", "short_code": "instr", "title": "Sentinel 1 Synthetic Aperture Radar (SAR)", "abstract": "The C-band Synthetic Aperture Radar (SAR) flown on the Sentinel 1 series of satellites is an instrument providing high resolution all-weather day and night radar coverage of the Earth's surface.\r\nSentinel 1A was launched on 3rd April 2014 and Sentinel 1B was launched on 25th April 2016. This instrument has four acquisition modes; Stripmap (SM), Interferometric Wide Swath (IW), Extra Wide Swath (EW), and Wave (WV)." }, "relatedTo": { "ob_id": 33266, "uuid": "c7698febb7fd4fff9a53d526cb54d866", "short_code": "acq", "title": "CCI Biomass, v3.0", "abstract": "CCI Biomass, v3.0" } }, { "ob_id": 12637, "platform": { "ob_id": 29959, "uuid": "d367f0c185a84677a52487304474a3aa", "short_code": "plat", "title": "ALOS-2", "abstract": "The Advanced Land Observing Satellite -2 (ALOS-2) is an Earth Observation satellite operated by JAXA and is the second instrument in the ALOS programme of satellites. It carries two instruments: PALSAR-2 (Phased-Array L-band Synthetic Aperture Radar - 2 ) and CIRC (Compact Infrared Camera)" }, "instrument": { "ob_id": 29958, "uuid": "8030695806b544f3948439758ea9b38f", "short_code": "instr", "title": "PALSAR-2", "abstract": "The Phased Array type-L band Synthetic Aperture Radar -2 (PALSAR-2) is an active microwave sensor using L-band frequency and which produces various products of different resolutions and performance. PALSAR-2 is flown on board the Japanese earth observation Advanced Land Observing Satellite 2 (ALOS -2) and was developed by the Japanese Aerospace Exploration Agency (JAXA). PALSAR-2 data can be acquired during day or night, increasing the temporal coverage of data for a particular spatial extent. PALSAR-2 is capable of detailed, all-weather, day and night observations and repeat-pass interferometry." }, "relatedTo": { "ob_id": 33266, "uuid": "c7698febb7fd4fff9a53d526cb54d866", "short_code": "acq", "title": "CCI Biomass, v3.0", "abstract": "CCI Biomass, v3.0" } }, { "ob_id": 12638, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 7820, "uuid": "06f9d685f96f4b26ba7f1ff09f4a29d9", "short_code": "instr", "title": "ENVISAT ASAR", "abstract": "The Advanced Synthetic Aperture Radar (ASAR) on-board ENVISAT is an active C-band radar that provides land cover data regardless of cloud cover and time of day/night. ASAR was designed for continuity with the image and wave modes of the ERS-1/2 AMI-SAR. It features enhanced capability in terms of coverage, range of incidence angles, polarisation, and modes of operation. This enhanced capability is provided by significant differences in the instrument design: a full active array antenna equipped with distributed transmit/receive modules which provides distinct transmit and receive beams, a digital waveform generation for pulse \"chirp\" generation, a block adaptive quantisation scheme, and a ScanSAR mode of operation by beam scanning in elevation." }, "relatedTo": { "ob_id": 33266, "uuid": "c7698febb7fd4fff9a53d526cb54d866", "short_code": "acq", "title": "CCI Biomass, v3.0", "abstract": "CCI Biomass, v3.0" } }, { "ob_id": 12639, "platform": { "ob_id": 8197, "uuid": "68af680aef294055a33e69ebb83a3e6e", "short_code": "plat", "title": "Advanced Land Observing Satellite (ALOS)", "abstract": "The Advanced Land Observing Satellite (ALOS) hosts the Advanced Visible and Near-Infrared Radiometer type 2 (AVNIR-2), the Panchromatic Remote sensing Instrument for Stereo Mapping (PRISM) and the Phased Array type-L band Synthetic Aperture Radar (PALSAR). The satellite, developed by the Japan Aerospace Exploration Agency (JAXA), was launched in 2006 and was active for 5 years. It has since lost power, but remains in orbit. It's mission included cartography, regional observation, disaster monitoring and resource surveying." }, "instrument": { "ob_id": 8198, "uuid": "5caaff5f44a64b77ab4855f95b78a514", "short_code": "instr", "title": "Phased Array type-L band Synthetic Aperture Radar (PALSAR)", "abstract": "The Phased Array type-L band Synthetic Aperture Radar (PALSAR) is an active microwave sensor using L-band frequency and produces various products of different resolutions and performance. PALSAR is on board the Japanese earth observation Advanced Land Observing Satellite (ALOS) and was developed by the Japanese Aerospace Exploration Agency (JAXA). PALSAR data can be acquired during day or night, increasing the temporal coverage of data for a particular spatial extent. PALSAR is capable of detailed, all-weather, day and night observations and repeat-pass interferometry." }, "relatedTo": { "ob_id": 33266, "uuid": "c7698febb7fd4fff9a53d526cb54d866", "short_code": "acq", "title": "CCI Biomass, v3.0", "abstract": "CCI Biomass, v3.0" } } ] }, { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 33280, "uuid": "68254e57333b4fb988d122d15ada9703", "short_code": "mpop", "title": "MRF Flight C-130 A257", "abstract": "MRF Flight C-130 A257" } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12640, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 19385, "uuid": "5288e47718e84864b9eb45c0d2def1e4", "short_code": "instr", "title": "MRF: Omega Navigation System", "abstract": "Omega Navigation System Litton LTN-211 used on the Meteorological Research Flight (MRF) " }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } }, { "ob_id": 12641, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2329, "uuid": "6c687a387e374757b68a43385aacae97", "short_code": "instr", "title": "MRF: NowStar XR5 GPS", "abstract": "NowStar XR5 GPS instrument onboard the Met Office Meteorological Research Flight (MRF) C-130" }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } }, { "ob_id": 12642, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 19388, "uuid": "8c65d54661824708bf5b6e4c205f7379", "short_code": "instr", "title": "MRF: Balometric radiometer", "abstract": "Balometric radiometer used on Met Office Meteorological Research Flight (MRF) C-130" }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } }, { "ob_id": 12643, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2505, "uuid": "d99c1aab18bc4953ad58d002e414b9bb", "short_code": "instr", "title": "MRF: Johnson-Williams Liquid Water Content Meter", "abstract": "Johnson-Williams Liquid Water Content Meter onboard the Met Office Meteorological Research Flight (MRF)) C-130.\r\n\r\nOperating principle: \r\nHot wire instrument. Liquid contacts sample wire. Liquid evaporates, altering resistance of wire with comparison to control wire shielded against liquid.\r\n\r\nFor measurement of Clouds microphysics/Liquid/ice Water Content" }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } }, { "ob_id": 12644, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 4597, "uuid": "ae790d4f51f94170bab06ad6adcccdb1", "short_code": "instr", "title": "MRF: Total Water Content (TWC) probe", "abstract": "Total Water Content (TWC) probe onboard the Met Office Meteorological Research Flight (MRF) C-130" }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } }, { "ob_id": 12645, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 2349, "uuid": "b1b003123bb9464c92ebba06f661188b", "short_code": "instr", "title": "MRF: In Cloud Temperature probe", "abstract": "The instrument commonly known as the 2D-P is part of a suite of instruments measuring particles sizes and is flown on the Met Office C-130 Hercules aircraft." }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } }, { "ob_id": 12646, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 19387, "uuid": "cd831ff8d58c45cd85d75ccfe958063f", "short_code": "instr", "title": "MRF: Radar altimeter", "abstract": "Radar altimeter used on the Met Office Meteorological Research Flight C-130." }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } }, { "ob_id": 12647, "platform": { "ob_id": 434, "uuid": "f1971a20238b4f5bba4126996bd2816d", "short_code": "plat", "title": "Met Office C-130 Hercules Aircraft", "abstract": "From 1972 to 2001 the Meteorological Research Flight (MRF) operated a C-130 aircraft which was comprehensively equipped to make a wide variety of atmospheric observations. It had been heavily modified for this role and was one of the most sophisticated 'flying laboratories' for atmospheric research in the world. The long striped probe on the nose allows sensitive instruments to make measurements, for example of turbulence, in a region outside the influence of the aircraft itself; it also gives the aircraft its nickname of 'Snoopy'." }, "instrument": { "ob_id": 19386, "uuid": "43edcc8db2af4c79a3015b77a91de9b2", "short_code": "instr", "title": "MRF: INU level offsets", "abstract": "INU level offsets used on the Meteorogical Resarch Flight (MRF)" }, "relatedTo": { "ob_id": 33279, "uuid": "2130bca5ec58478ea3fbc530f76fd9a6", "short_code": "acq", "title": "MRF Flight A257", "abstract": "MRF Flight A257" } } ] }, { "ob_id": 33284, "uuid": "8551b133e021456ebafd1e325bed0d90", "short_code": "acq", "title": "ESA CCI Water Vapour: Total Column Water Vapour over land (TCWV-land), v3.1", "abstract": "The ESA Climate Change Initiatve Water Vapour (Water_Vapour_cci) Total Column Water Vapour over land (TCWV-land) data set has been produced from observations from the following satellite instruments: MERIS on ENVISAT, MODIS on TERRA and OLCI on Sentinel-3.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12648, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 11888, "uuid": "f8e727e882ed463c871d127d88fe9601", "short_code": "instr", "title": "Medium Resolution Imaging Spectrometer (MERIS)", "abstract": "The Medium Resolution Imaging Spectrometer (MERIS) is one of the ten instruments onboard the Envisat satellite launched on the 28th of February 2002 from Kourou (French Guyana) and operated by the European Space Agency (ESA)." }, "relatedTo": { "ob_id": 33284, "uuid": "8551b133e021456ebafd1e325bed0d90", "short_code": "acq", "title": "ESA CCI Water Vapour: Total Column Water Vapour over land (TCWV-land), v3.1", "abstract": "The ESA Climate Change Initiatve Water Vapour (Water_Vapour_cci) Total Column Water Vapour over land (TCWV-land) data set has been produced from observations from the following satellite instruments: MERIS on ENVISAT, MODIS on TERRA and OLCI on Sentinel-3." } }, { "ob_id": 12649, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 33284, "uuid": "8551b133e021456ebafd1e325bed0d90", "short_code": "acq", "title": "ESA CCI Water Vapour: Total Column Water Vapour over land (TCWV-land), v3.1", "abstract": "The ESA Climate Change Initiatve Water Vapour (Water_Vapour_cci) Total Column Water Vapour over land (TCWV-land) data set has been produced from observations from the following satellite instruments: MERIS on ENVISAT, MODIS on TERRA and OLCI on Sentinel-3." } }, { "ob_id": 12650, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19027, "uuid": "5ff900fe22954a91b678eef0af96758c", "short_code": "instr", "title": "Sentinel 3 Ocean and Land Colour Instrument (OLCI)", "abstract": "Ocean and Land Colour Instrument (OLCI) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 33284, "uuid": "8551b133e021456ebafd1e325bed0d90", "short_code": "acq", "title": "ESA CCI Water Vapour: Total Column Water Vapour over land (TCWV-land), v3.1", "abstract": "The ESA Climate Change Initiatve Water Vapour (Water_Vapour_cci) Total Column Water Vapour over land (TCWV-land) data set has been produced from observations from the following satellite instruments: MERIS on ENVISAT, MODIS on TERRA and OLCI on Sentinel-3." } } ] }, { "ob_id": 33326, "uuid": "e1862c476a694072b2ed535046a3e97c", "short_code": "acq", "title": "ClearFlo: CityScan", "abstract": "ClearFlo: CityScan", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12651, "platform": { "ob_id": 33325, "uuid": "092b8d7fb41c41e58aee9fb73e8e529a", "short_code": "plat", "title": "King's College, London", "abstract": "King's College, London site for measurements. Used in the ClearFlo project" }, "instrument": { "ob_id": 14270, "uuid": "4aa77eb71d8a4cbb963654661a1ed1f7", "short_code": "instr", "title": "Vaisala WXT520 weather transmitters", "abstract": "Air temperature, relative humidity, wind speed, wind direction and atmospheric pressure were\r\nmeasured with Vaisala WXT520 weather transmitters " }, "relatedTo": { "ob_id": 33326, "uuid": "e1862c476a694072b2ed535046a3e97c", "short_code": "acq", "title": "ClearFlo: CityScan", "abstract": "ClearFlo: CityScan" } } ] }, { "ob_id": 33372, "uuid": "62b6d9e61692493e938a4ef8b98e5989", "short_code": "acq", "title": "Aquistion for ESA Land Surface Temperature Climate Change Initiative (LST_cci): All-weather daily MicroWave Land Surface Temperature (MW-LST) global data record (1996-2020)", "abstract": "The Land Surface Temperature dataset has been derived from the microwave instruments Defense Meteorological Satellite Program (DMSP) Special Sensor Microwave/Imager (SSM/I) and Special Sensor Microwave Imager / Sounder (SSMIS).", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12657, "platform": { "ob_id": 2629, "uuid": "9f1b0a2380cc47919b201880e0fee6de", "short_code": "plat", "title": "Defense Meteorological Satellite Program (DMSP) Satellites", "abstract": "DMSP satellites are used for strategic and tactical weather prediction to aid the U.S. military in planning operations at sea, on land and in the air. Equipped with a sophisticated sensor suite that can image visible and infrared cloud cover and measure precipitation, surface temperature, and soil moisture, the satellite collects specialized global meteorological, oceanographic, and solar-geophysical information in all weather conditions. The DMSP constellation comprises two spacecraft in near-polar orbits, C3 (command, control and communications), user terminals and weather centers." }, "instrument": { "ob_id": 2630, "uuid": "54f897597ec04c09b01095eb05c7419e", "short_code": "instr", "title": "Special Sensor Microwave / Imager (SSM/I)", "abstract": "The SSM/I is a seven-channel, four frequency, linearly-polarized, passive microwave radiometric system which measures atmospheric, ocean and terrain microwave brightness temperatures at 19.35, 22.235, 37.0 and 85.5 GHz. The data are used to obtain synoptic maps of critical atmospheric, oceanographic and selected land parameters on a global scale." }, "relatedTo": { "ob_id": 33372, "uuid": "62b6d9e61692493e938a4ef8b98e5989", "short_code": "acq", "title": "Aquistion for ESA Land Surface Temperature Climate Change Initiative (LST_cci): All-weather daily MicroWave Land Surface Temperature (MW-LST) global data record (1996-2020)", "abstract": "The Land Surface Temperature dataset has been derived from the microwave instruments Defense Meteorological Satellite Program (DMSP) Special Sensor Microwave/Imager (SSM/I) and Special Sensor Microwave Imager / Sounder (SSMIS)." } }, { "ob_id": 12658, "platform": { "ob_id": 2629, "uuid": "9f1b0a2380cc47919b201880e0fee6de", "short_code": "plat", "title": "Defense Meteorological Satellite Program (DMSP) Satellites", "abstract": "DMSP satellites are used for strategic and tactical weather prediction to aid the U.S. military in planning operations at sea, on land and in the air. Equipped with a sophisticated sensor suite that can image visible and infrared cloud cover and measure precipitation, surface temperature, and soil moisture, the satellite collects specialized global meteorological, oceanographic, and solar-geophysical information in all weather conditions. The DMSP constellation comprises two spacecraft in near-polar orbits, C3 (command, control and communications), user terminals and weather centers." }, "instrument": { "ob_id": 14771, "uuid": "b72976413c35455bab7316c9e71d3b8c", "short_code": "instr", "title": "Special Sensor Microwave Imager Sounder (SSMIS)", "abstract": "Beginning with the launch of the DMSP F-16 satellite on 18 October 2003, the SSMIS marks the commencement of a new series of passive microwave conically scanning imagers and sounders planned for launch over the next two decades. SSMIS improves upon the surface and atmospheric retrievals of the Special Sensor Microwave Imager (SSM/I) and the SSMIS imaging and sounding sensors share the same viewing geometry, thereby allowing surface parameters to be retrieved simultaneously. The SSMIS instrument is able to estimate atmospheric temperature, moisture, and surface parameters from data collected at frequencies ranging from 19 to 183 GHz over a swath width of 1707 km. SSMIS is currently carried aboard DMSP-F16, -F17, and -F18 satellites, and is slated for future missions aboard DMSP-F19 and -F20." }, "relatedTo": { "ob_id": 33372, "uuid": "62b6d9e61692493e938a4ef8b98e5989", "short_code": "acq", "title": "Aquistion for ESA Land Surface Temperature Climate Change Initiative (LST_cci): All-weather daily MicroWave Land Surface Temperature (MW-LST) global data record (1996-2020)", "abstract": "The Land Surface Temperature dataset has been derived from the microwave instruments Defense Meteorological Satellite Program (DMSP) Special Sensor Microwave/Imager (SSM/I) and Special Sensor Microwave Imager / Sounder (SSMIS)." } } ] }, { "ob_id": 33425, "uuid": "b111709fd6454b358a4af7117eabeebe", "short_code": "acq", "title": "Aquisition for the RAL extended IMS retrieval scheme applied to Suomi-NPP data", "abstract": "The IMS retrieval scheme has been applied to data from the CHRIS instrument on Suomi-NPP", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12659, "platform": { "ob_id": 33004, "uuid": "127687ff68bd4604b96771258a04a1fc", "short_code": "plat", "title": "SNPP", "abstract": "The Suomi National Polar-orbiting Partnership (SNPP) is an operation meteorology satellite flown by NOAA and NASA. It is the prototype of the JPSS (Joint Polar Satellite System) program." }, "instrument": { "ob_id": 33424, "uuid": "b24aea4708374644806123beb2f8be0e", "short_code": "instr", "title": "CrIS", "abstract": "The Cross-track Infrared Sounder (CrIS) is an infra-red nadir viewing spectrometer flown on the SNPP and JPSS satellites." }, "relatedTo": { "ob_id": 33425, "uuid": "b111709fd6454b358a4af7117eabeebe", "short_code": "acq", "title": "Aquisition for the RAL extended IMS retrieval scheme applied to Suomi-NPP data", "abstract": "The IMS retrieval scheme has been applied to data from the CHRIS instrument on Suomi-NPP" } } ] }, { "ob_id": 33434, "uuid": "c721934aea5447ab819c14cfb25ecd8b", "short_code": "acq", "title": "Aquisition for the ESA Sea Level Climate Change Initiative (Sea_level_cci): Arctic Sea Level Anomalies from ENVISAT and SARAL/Altika satellite altimetry missions (by CLS/PML)", "abstract": "Data from the Radar Altimeter -2 (RA-2) on ENVISAT (Ku band only) and the Altika Instrument on the SARAL satellite were used to derive the Arctic Sea Level Anomalies data", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12660, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 13692, "uuid": "c1015c7477334094ab86ef8a1f6ee3ce", "short_code": "instr", "title": "Radar Altimeter 2 (RA-2)", "abstract": "Radar Altimeter 2 (RA-2) is an instrument for determining the two-way delay of the radar echo from the Earth's surface to a very high precision: less than a nanosecond. It also measures the power and the shape of the reflected radar pulses.\r\n\r\nIt is a nadir-looking pulse-limited radar altimeter based on the heritage of ERS-1 RA functioning at the main nominal frequency of 13.575 GHz (Ku Band), which has been selected as a good compromise between the affordable antenna dimension that provides the necessary gain and the relatively low attenuation which experience the signals propagating through the troposphere." }, "relatedTo": { "ob_id": 33434, "uuid": "c721934aea5447ab819c14cfb25ecd8b", "short_code": "acq", "title": "Aquisition for the ESA Sea Level Climate Change Initiative (Sea_level_cci): Arctic Sea Level Anomalies from ENVISAT and SARAL/Altika satellite altimetry missions (by CLS/PML)", "abstract": "Data from the Radar Altimeter -2 (RA-2) on ENVISAT (Ku band only) and the Altika Instrument on the SARAL satellite were used to derive the Arctic Sea Level Anomalies data" } }, { "ob_id": 12661, "platform": { "ob_id": 26738, "uuid": "ae4858d28dec45a1805b8de5029e8b88", "short_code": "plat", "title": "SARAL (Satellite with ARGOS and AltiKa)", "abstract": "The SARAL (Satellite with ARGOS and AltiKa) is a French (CNES) / Indian (ISRO) satellite mission primarily focused on observing the oceans." }, "instrument": { "ob_id": 26737, "uuid": "43854b24bec449a7a07eedc63b6b9690", "short_code": "instr", "title": "AltiKa", "abstract": "The Ka-band Altimeter (AltiKa) is flown on the SARAL satellite" }, "relatedTo": { "ob_id": 33434, "uuid": "c721934aea5447ab819c14cfb25ecd8b", "short_code": "acq", "title": "Aquisition for the ESA Sea Level Climate Change Initiative (Sea_level_cci): Arctic Sea Level Anomalies from ENVISAT and SARAL/Altika satellite altimetry missions (by CLS/PML)", "abstract": "Data from the Radar Altimeter -2 (RA-2) on ENVISAT (Ku band only) and the Altika Instrument on the SARAL satellite were used to derive the Arctic Sea Level Anomalies data" } } ] }, { "ob_id": 33443, "uuid": "f8550972e507447fab3d9ca3c8e55cb3", "short_code": "acq", "title": "Acquisition for the ESA Sea Level Climate Change Initiative (Sea_Level_cci): High Latitude Sea Level Anomalies from satellite altimetry (by DTU/TUM)", "abstract": "Satellite altimetry data from four satellite missions were used: ERS1 (weeks 0 - 217); ERS2 (weeks 218 - 573); Envisat (weeks 574 - 1020); CryoSat-2 (weeks 1021 - 1336).", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12662, "platform": { "ob_id": 7805, "uuid": "d21630e98aa74a4f8406743b74e5d076", "short_code": "plat", "title": "ERS-1", "abstract": "The European Remote Sensing satellite 1 (ERS1) was launched on 17th July 1991 and was the first flight of the RSA ERS program. The payload included the ATSR, AMU-SAR , AMI-SCAT, LRR PRARE and RA instruments. End of mission for ERS1 was 10th March 2000." }, "instrument": { "ob_id": 30024, "uuid": "19bf6bae815c412fa2374e2513d25af5", "short_code": "instr", "title": "RA", "abstract": "The RA (Radar Altimeter) instrument was flown on the ERS-1 and ERS02 satellites. It's a single frequency (13.8 GHz) radar altimeter." }, "relatedTo": { "ob_id": 33443, "uuid": "f8550972e507447fab3d9ca3c8e55cb3", "short_code": "acq", "title": "Acquisition for the ESA Sea Level Climate Change Initiative (Sea_Level_cci): High Latitude Sea Level Anomalies from satellite altimetry (by DTU/TUM)", "abstract": "Satellite altimetry data from four satellite missions were used: ERS1 (weeks 0 - 217); ERS2 (weeks 218 - 573); Envisat (weeks 574 - 1020); CryoSat-2 (weeks 1021 - 1336)." } }, { "ob_id": 12663, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 30024, "uuid": "19bf6bae815c412fa2374e2513d25af5", "short_code": "instr", "title": "RA", "abstract": "The RA (Radar Altimeter) instrument was flown on the ERS-1 and ERS02 satellites. It's a single frequency (13.8 GHz) radar altimeter." }, "relatedTo": { "ob_id": 33443, "uuid": "f8550972e507447fab3d9ca3c8e55cb3", "short_code": "acq", "title": "Acquisition for the ESA Sea Level Climate Change Initiative (Sea_Level_cci): High Latitude Sea Level Anomalies from satellite altimetry (by DTU/TUM)", "abstract": "Satellite altimetry data from four satellite missions were used: ERS1 (weeks 0 - 217); ERS2 (weeks 218 - 573); Envisat (weeks 574 - 1020); CryoSat-2 (weeks 1021 - 1336)." } }, { "ob_id": 12664, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 13692, "uuid": "c1015c7477334094ab86ef8a1f6ee3ce", "short_code": "instr", "title": "Radar Altimeter 2 (RA-2)", "abstract": "Radar Altimeter 2 (RA-2) is an instrument for determining the two-way delay of the radar echo from the Earth's surface to a very high precision: less than a nanosecond. It also measures the power and the shape of the reflected radar pulses.\r\n\r\nIt is a nadir-looking pulse-limited radar altimeter based on the heritage of ERS-1 RA functioning at the main nominal frequency of 13.575 GHz (Ku Band), which has been selected as a good compromise between the affordable antenna dimension that provides the necessary gain and the relatively low attenuation which experience the signals propagating through the troposphere." }, "relatedTo": { "ob_id": 33443, "uuid": "f8550972e507447fab3d9ca3c8e55cb3", "short_code": "acq", "title": "Acquisition for the ESA Sea Level Climate Change Initiative (Sea_Level_cci): High Latitude Sea Level Anomalies from satellite altimetry (by DTU/TUM)", "abstract": "Satellite altimetry data from four satellite missions were used: ERS1 (weeks 0 - 217); ERS2 (weeks 218 - 573); Envisat (weeks 574 - 1020); CryoSat-2 (weeks 1021 - 1336)." } }, { "ob_id": 12665, "platform": { "ob_id": 26733, "uuid": "f975adeae5ab4996a34212f8de1f07d8", "short_code": "plat", "title": "CryoSat-2", "abstract": "The CryoSat-2 satellite is an ESA mission primarily aimed at studying polar ice topography." }, "instrument": { "ob_id": 26732, "uuid": "f9fdf2e5e3134a6a86a1594cf7d1fd86", "short_code": "instr", "title": "The SAR Interferometer Radar Altimeter (SIRAL)", "abstract": "The SAR Interferometer Radar Altimeter (SIRAL) is flown on the CryoSat-2, measuring at a single frequency (13.56 GHz) with capability to make SAR measuments along-track, or across-track for SAR interferometery." }, "relatedTo": { "ob_id": 33443, "uuid": "f8550972e507447fab3d9ca3c8e55cb3", "short_code": "acq", "title": "Acquisition for the ESA Sea Level Climate Change Initiative (Sea_Level_cci): High Latitude Sea Level Anomalies from satellite altimetry (by DTU/TUM)", "abstract": "Satellite altimetry data from four satellite missions were used: ERS1 (weeks 0 - 217); ERS2 (weeks 218 - 573); Envisat (weeks 574 - 1020); CryoSat-2 (weeks 1021 - 1336)." } } ] }, { "ob_id": 34668, "uuid": "54d6d8a51efd49e28e9fa8e9ce2e294c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Along-Track Scanning Radiometer 2 (ATSR-2) level 3 collated (L3C) global product (1995-2003), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: ERS2 ATSR2; PLATFORMS: ERS-2;", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12666, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 5566, "uuid": "0144096c6dd84a2a99abced27e129e12", "short_code": "instr", "title": "Along Track Scanning Radiometer 2 (ATSR-2)", "abstract": "An enhanced version of ATSR (Along Track Scanning Radiometer), ATSR-2, was successfully launched on board the European Space Agency (ESA) ERS-2 (European Remote Sensing - 2) spacecraft on 21st April 1995. ATSR-2 is equipped with additional visible channels for vegetation monitoring. It measures sea surface temperatures and the vegetation cover of land surfaces." }, "relatedTo": { "ob_id": 34668, "uuid": "54d6d8a51efd49e28e9fa8e9ce2e294c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Along-Track Scanning Radiometer 2 (ATSR-2) level 3 collated (L3C) global product (1995-2003), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: ERS2 ATSR2; PLATFORMS: ERS-2;" } } ] }, { "ob_id": 34688, "uuid": "2b79ae0d652f439b9e46e426e6ba3bc7", "short_code": "acq", "title": "Acquisition for: Iceland Greenland Seas Project (IGP): water isotope measurements from the University of Iceland vapour isotope analyzer at Húsavik and samples of precipitation and surface snow in Iceland and southern Norway within SNOWPACE", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [ 34689 ], "instrumentplatformpair_set": [] }, { "ob_id": 34694, "uuid": "14619c3b7cbd4a72bbd36a26145ecdaa", "short_code": "acq", "title": "Acquisition for: Iceland Greenland Seas Project (IGP): water isotope measurements from the University of Bergen vapour isotope analyzer on board the NATO Research Vessel Alliance within SNOWPACE", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [ 34695 ], "instrumentplatformpair_set": [] }, { "ob_id": 34700, "uuid": "11fa1282c74a4ce798239356afb448d1", "short_code": "acq", "title": "Acquisition for: Iceland Greenland Seas Project (IGP): water isotope measurements from the University of Bergen vapour isotope analyzer on board the BAS research aircraft MASIN within SNOWPACE", "abstract": "The Picarro instrument installed on board of MASIN was a flight-enabled Picarro L2130-i (Ser. No. HIDS2254), provided by FARLAB, University of Bergen. This particular L2130-i is a custom-made, flight-enabled modification that has an additional laser, allowing faster switching between wavelengths and thus faster measurement frequency, regulation of the flow rate through the cavity at changing ambient pressure, and a measurement cavity certified down to 200 ppmv H2O, lower than regular instruments of the same type. In addition to mixing ratio, isotope delta values and a range of internal control parameters, the instrument records ambient pressure, which allows for an alignment of the vapour isotope measurements with meteorological measurements onboard the aircraft. A backward-facing inlet was installed for vapour measurements. Inlet tubing was heated to about 60 deg C by self-regulating heat trace (Thermon Inc., USA). Less than 1 m stainless steel tubing (1/4 inch diameter) was used from the point where a T-valve allowed to draw air from either the forward or backward facing inlet line. From there, another 2.5 m of 3/8 inch stainless steel tubing with Sulfinert coating (Silcotek Inc., USA) for lower moisture retention led to a connection with a T-valve, that allowed to bypass the KNF manifold pump (N022AN.18) with a flow rate of about 5–10 lpm. During two of the flights, this valve was by mistake turned such that the pump did not flush the inlet, such that only the CRDS analyzer with a flow rate of about 40 sccm provided flow through the inlet. Less than 1 m of 1/4 inch stainless steel tubing then branched off to the analyzer, connected to an critical orifice required for low-flow mode, and protected by a check valve against reverse flow. An additional T-valve allowed for switching between flow from the inlet or from the calibration unit. These last parts of tubing had a flow rate of about 30–40 sccm, as the analyzer was operated in low-flow mode.\"\r\n\r\nPost processing of aircraft data at University of Bergen\r\nData files recorded by the analyzer in *.dat format are converted to netCDF format using apython routine. The raw data are then processed using the calibration routines FaVaCal, in use at FARLAB, University of Bergen, Norway. Calibration periods are identified and removed for separate processing with plots and quality evaluation. Water vapour isotope measurements are corrected for the humidity-isotope ratio dependency, as documented by Weng et al., 2020. The complete data processing is described in more detail in the data report for stable water isotope measurements from aircraft during IGP. The vapour isotope data are joined with the meteorological data from the MASIN aircraft obtained during IGP at a 2s, 10s, 30s and 60 s averaging time using the processing tool isofuse. Output from this conversion is stored as in separate datafiles for each averaging time and flight (naming: MASIN_isotopes_IGP2018_V3.3_20180304_f295_02s_final.nc; folder: IGP2018_SNOWPACE_MASIN_flight_data_V3.3/02s; format: netcdf). Results from liquid sample analysis for water isotopes from MASIN are available in one datafile (naming:IGP2018_SNOWPACE_water_isotope_samples_MASIN.csv, format: csv).Post processing was done by Harald Sodemann (UiB), who also acts as data contact.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12671, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 34701, "uuid": "b8fe4ff755e84ae2a1148876423d5c3e", "short_code": "instr", "title": "Picarro L2130-i", "abstract": "The Picarro instrument installed on board of MASIN was a flight-enabled Picarro L2130-i (Ser. No. HIDS2254), provided by FARLAB, University of Bergen. This particular L2130-i is a custom-made, flight-enabled modification that has an additional laser, allowing faster switching between wavelengths and thus faster measurement frequency, regulation of the flow rate through the cavity at changing ambient pressure, and a measurement cavity certified down to 200 ppmv H2O, lower than regular instruments of the same type. In addition to mixing ratio, isotope delta values and a range of internal control parameters, the instrument records ambient pressure, which allows for an alignment of the vapour isotope measurements with meteorological measurements onboard the aircraft. A backward-facing inlet was installed for vapour measurements. Inlet tubing was heated to about 60 deg C by self-regulating heat trace (Thermon Inc., USA). Less than 1 m stainless steel tubing (1/4 inch diameter) was used from the point where a T-valve allowed to draw air from either the forward or backward facing inlet line. From there, another 2.5 m of 3/8 inch stainless steel tubing with Sulfinert coating (Silcotek Inc., USA) for lower moisture retention led to a connection with a T-valve, that allowed to bypass the KNF manifold pump (N022AN.18) with a flow rate of about 5–10 lpm. During two of the flights, this valve was by mistake turned such that the pump did not flush the inlet, such that only the CRDS analyzer with a flow rate of about 40 sccm provided flow through the inlet. Less than 1 m of 1/4 inch stainless steel tubing then branched off to the analyzer, connected to an critical orifice required for low-flow mode, and protected by a check valve against reverse flow. An additional T-valve allowed for switching between flow from the inlet or from the calibration unit. These last parts of tubing had a flow rate of about 30–40 sccm, as the analyzer was operated in low-flow mode." }, "relatedTo": { "ob_id": 34700, "uuid": "11fa1282c74a4ce798239356afb448d1", "short_code": "acq", "title": "Acquisition for: Iceland Greenland Seas Project (IGP): water isotope measurements from the University of Bergen vapour isotope analyzer on board the BAS research aircraft MASIN within SNOWPACE", "abstract": "The Picarro instrument installed on board of MASIN was a flight-enabled Picarro L2130-i (Ser. No. HIDS2254), provided by FARLAB, University of Bergen. This particular L2130-i is a custom-made, flight-enabled modification that has an additional laser, allowing faster switching between wavelengths and thus faster measurement frequency, regulation of the flow rate through the cavity at changing ambient pressure, and a measurement cavity certified down to 200 ppmv H2O, lower than regular instruments of the same type. In addition to mixing ratio, isotope delta values and a range of internal control parameters, the instrument records ambient pressure, which allows for an alignment of the vapour isotope measurements with meteorological measurements onboard the aircraft. A backward-facing inlet was installed for vapour measurements. Inlet tubing was heated to about 60 deg C by self-regulating heat trace (Thermon Inc., USA). Less than 1 m stainless steel tubing (1/4 inch diameter) was used from the point where a T-valve allowed to draw air from either the forward or backward facing inlet line. From there, another 2.5 m of 3/8 inch stainless steel tubing with Sulfinert coating (Silcotek Inc., USA) for lower moisture retention led to a connection with a T-valve, that allowed to bypass the KNF manifold pump (N022AN.18) with a flow rate of about 5–10 lpm. During two of the flights, this valve was by mistake turned such that the pump did not flush the inlet, such that only the CRDS analyzer with a flow rate of about 40 sccm provided flow through the inlet. Less than 1 m of 1/4 inch stainless steel tubing then branched off to the analyzer, connected to an critical orifice required for low-flow mode, and protected by a check valve against reverse flow. An additional T-valve allowed for switching between flow from the inlet or from the calibration unit. These last parts of tubing had a flow rate of about 30–40 sccm, as the analyzer was operated in low-flow mode.\"\r\n\r\nPost processing of aircraft data at University of Bergen\r\nData files recorded by the analyzer in *.dat format are converted to netCDF format using apython routine. The raw data are then processed using the calibration routines FaVaCal, in use at FARLAB, University of Bergen, Norway. Calibration periods are identified and removed for separate processing with plots and quality evaluation. Water vapour isotope measurements are corrected for the humidity-isotope ratio dependency, as documented by Weng et al., 2020. The complete data processing is described in more detail in the data report for stable water isotope measurements from aircraft during IGP. The vapour isotope data are joined with the meteorological data from the MASIN aircraft obtained during IGP at a 2s, 10s, 30s and 60 s averaging time using the processing tool isofuse. Output from this conversion is stored as in separate datafiles for each averaging time and flight (naming: MASIN_isotopes_IGP2018_V3.3_20180304_f295_02s_final.nc; folder: IGP2018_SNOWPACE_MASIN_flight_data_V3.3/02s; format: netcdf). Results from liquid sample analysis for water isotopes from MASIN are available in one datafile (naming:IGP2018_SNOWPACE_water_isotope_samples_MASIN.csv, format: csv).Post processing was done by Harald Sodemann (UiB), who also acts as data contact." } } ] }, { "ob_id": 34707, "uuid": "68a8483aac80498ca83c5ca9b8be24cd", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Moderate resolution Infra-red Spectroradiometer (MODIS) on Aqua level 3 collated (L3C) global product (2002-2018), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: MODIS; PLATFORMS: Aqua", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12667, "platform": { "ob_id": 10906, "uuid": "5a1076bffc8c4c5d8a2ff3a4cfb29846", "short_code": "plat", "title": "Aqua Satellite, part of the Earth Observation System Afternoon Constellation (EOS-PM)", "abstract": "Aqua, launched on 4th April 2002, is a polar-orbiting satellite within the Afternoon Constellation (A-Train) that have equator crossings around 13:30 and 01:30 under NASA's Earth Obseration System (EOS). The satellite carries Atmospheric Infrared Sounder (AIRS), Advanced Microwave Sounding Unit (AMSU-A), Humidity Sounder for Brazil (HSB), Advanced Microwave Scanning Radiometer for EOS (AMSR-E), Moderate-Resolution Imaging Spectroradiometer (MODIS) and Clouds and the Earth's Radiant Energy System (CERES), and these collect data on the Earth's atmospheric conditions, snow and ice, sea surface temperature and ocean productivity, and soil moisture. Aqua was the first member launched of a group of satellites termed the Afternoon Constellation, or sometimes the A-Train. " }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 34707, "uuid": "68a8483aac80498ca83c5ca9b8be24cd", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Moderate resolution Infra-red Spectroradiometer (MODIS) on Aqua level 3 collated (L3C) global product (2002-2018), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: MODIS; PLATFORMS: Aqua" } } ] }, { "ob_id": 34710, "uuid": "811ac73c575844d1a8d4a5e777ed0f63", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Moderate resolution Infra-red Spectroradiometer (MODIS) on Terra level 3 collated (L3C) global product (2002-2018), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: MODIS; PLATFORMS: Terra", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12668, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 34710, "uuid": "811ac73c575844d1a8d4a5e777ed0f63", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Moderate resolution Infra-red Spectroradiometer (MODIS) on Terra level 3 collated (L3C) global product (2002-2018), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: MODIS; PLATFORMS: Terra" } } ] }, { "ob_id": 34718, "uuid": "555ea48b594044cba44b642f0d1374eb", "short_code": "acq", "title": "Acquisition for TRANSITION Clean Air Network: Exposures to particles and volatile organic compounds across multiple transportation modes", "abstract": "VOCs captured in the field using thermal desorption tubes, and then analysed into the component species using highly sensitive Markes International GCxGC-TOF-MS system, and ultrafines data captured using a V2000 sensor from National Air Quality Testing Services by Emissions Analytics.", "imageDetails": [ 2 ], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12669, "platform": { "ob_id": 34716, "uuid": "607232b5cd3d4d91ba27143ccf1859af", "short_code": "plat", "title": "Clear Air Network - Transition VOCs sites", "abstract": "Sites used for Clear Air Network - TRANSITION VOCs and ultrafine particles measurements including various modes of transport: diesel and electric trains, the London Underground, diesel and electric buses, and old and new cars, including a battery electric" }, "instrument": { "ob_id": 34715, "uuid": "14d2795f228842d78f19464091deb32a", "short_code": "instr", "title": "Emission Analytics- GCxGC-TOF-MS", "abstract": "Markes International GCxGC-TOF-MS system" }, "relatedTo": { "ob_id": 34718, "uuid": "555ea48b594044cba44b642f0d1374eb", "short_code": "acq", "title": "Acquisition for TRANSITION Clean Air Network: Exposures to particles and volatile organic compounds across multiple transportation modes", "abstract": "VOCs captured in the field using thermal desorption tubes, and then analysed into the component species using highly sensitive Markes International GCxGC-TOF-MS system, and ultrafines data captured using a V2000 sensor from National Air Quality Testing Services by Emissions Analytics." } }, { "ob_id": 12670, "platform": { "ob_id": 34716, "uuid": "607232b5cd3d4d91ba27143ccf1859af", "short_code": "plat", "title": "Clear Air Network - Transition VOCs sites", "abstract": "Sites used for Clear Air Network - TRANSITION VOCs and ultrafine particles measurements including various modes of transport: diesel and electric trains, the London Underground, diesel and electric buses, and old and new cars, including a battery electric" }, "instrument": { "ob_id": 34717, "uuid": "782b8a52e2bb4f34bdc067cba0ccc347", "short_code": "instr", "title": "NAQTS - V2000", "abstract": "National Air Quality Testing Service (NAQTS)’s V2000 air quality monitoring systems" }, "relatedTo": { "ob_id": 34718, "uuid": "555ea48b594044cba44b642f0d1374eb", "short_code": "acq", "title": "Acquisition for TRANSITION Clean Air Network: Exposures to particles and volatile organic compounds across multiple transportation modes", "abstract": "VOCs captured in the field using thermal desorption tubes, and then analysed into the component species using highly sensitive Markes International GCxGC-TOF-MS system, and ultrafines data captured using a V2000 sensor from National Air Quality Testing Services by Emissions Analytics." } } ] }, { "ob_id": 34723, "uuid": "1a9bf108e75f466ea6451c73c3a12eec", "short_code": "acq", "title": "Terrestrial Laser Scans of individual trees", "abstract": "A terrestrial laser scanner was used to calculate the above-ground biomass of different tree species. Instrument type can be found in the data file and detailed methods have been described in the documentation section.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [] }, { "ob_id": 34727, "uuid": "b5d1b194bec54f98a188433c0636f16f", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Advanced Along-Track Scanning Radiometer (AATSR) level 3 collated (L3C) global product (2002-2012), version 3.00\\", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: AATSR; PLATFORMS: ENVISAT;", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12672, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 847, "uuid": "e448141cadd04550aa19dac5601af34d", "short_code": "instr", "title": "Advanced Along-Track Scanning Radiometer (AATSR)", "abstract": "The Advanced Along-Track Scanning Radiometer (AATSR) measures global Sea Surface Temperature (SST) from space to the highest possible levels of accuracy and stability, as required for climate research and monitoring. It is the third in the ATSR series, and is a payload instrument on ESA's ENVISAT." }, "relatedTo": { "ob_id": 34727, "uuid": "b5d1b194bec54f98a188433c0636f16f", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Advanced Along-Track Scanning Radiometer (AATSR) level 3 collated (L3C) global product (2002-2012), version 3.00\\", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: AATSR; PLATFORMS: ENVISAT;" } } ] }, { "ob_id": 34733, "uuid": "e02575af28404c7e9c4453fa4f3e1fad", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Sea and Land Surface Temperature Radiometer (SLSTR) on Sentinel 3A level 3 collated (L3C) global product (2016-2020), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: SLSTR; PLATFORMS: Sentinel3A;", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12673, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 34733, "uuid": "e02575af28404c7e9c4453fa4f3e1fad", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Sea and Land Surface Temperature Radiometer (SLSTR) on Sentinel 3A level 3 collated (L3C) global product (2016-2020), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: SLSTR; PLATFORMS: Sentinel3A;" } } ] }, { "ob_id": 34737, "uuid": "9cd8a82f4ed94ef1a692e3c166344302", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Sea and Land Surface Temperature Radiometer (SLSTR) on Sentinel 3B level 3 collated (L3C) global product (2018-2020), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: SLSTR; PLATFORMS: Sentinel3B;", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12674, "platform": { "ob_id": 26990, "uuid": "3478f3a96c7e4610a1973a535ee6439e", "short_code": "plat", "title": "Sentinel 3B", "abstract": "Sentinel 3B was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 25th April 2018." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 34737, "uuid": "9cd8a82f4ed94ef1a692e3c166344302", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Sea and Land Surface Temperature Radiometer (SLSTR) on Sentinel 3B level 3 collated (L3C) global product (2018-2020), version 3.00", "abstract": "This acquisition is comprised of the following: INSTRUMENTS: SLSTR; PLATFORMS: Sentinel3B;" } } ] }, { "ob_id": 34740, "uuid": "6825231fd8d1437788ddb667d64c0720", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) Land surface temperature (LST) time series level 3 supercollated (L3S) global product (1995-2020), version 2.00", "abstract": "The dataset is comprised of LSTs from a series of instruments with a common heritage: the Along-Track Scanning Radiometer 2 (ATSR-2), the Advanced Along-Track Scanning Radiometer (AATSR) and the Sea and Land Surface Temperature Radiometer on Sentinel 3A (SLSTRA); and data from; the Moderate Imaging Spectroradiometer on Earth Observation System - Terra (MODIS Terra) to fill the gap between AATSR and SLSTR. So, the instruments contributing to the time series are: ATSR-2 from August 1995 to July 2002; AATSR from August 2002 to March 2012; MODIS Terra from April 2012 to July 2016; and SLSTRA from August 2016 to December 2020. Inter-instrument biases are accounted for by cross-calibration with the Infrared Atmospheric Sounding Interferometer (IASI) instruments on Meteorological Operational (METOP) satellites", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12676, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 5566, "uuid": "0144096c6dd84a2a99abced27e129e12", "short_code": "instr", "title": "Along Track Scanning Radiometer 2 (ATSR-2)", "abstract": "An enhanced version of ATSR (Along Track Scanning Radiometer), ATSR-2, was successfully launched on board the European Space Agency (ESA) ERS-2 (European Remote Sensing - 2) spacecraft on 21st April 1995. ATSR-2 is equipped with additional visible channels for vegetation monitoring. It measures sea surface temperatures and the vegetation cover of land surfaces." }, "relatedTo": { "ob_id": 34740, "uuid": "6825231fd8d1437788ddb667d64c0720", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) Land surface temperature (LST) time series level 3 supercollated (L3S) global product (1995-2020), version 2.00", "abstract": "The dataset is comprised of LSTs from a series of instruments with a common heritage: the Along-Track Scanning Radiometer 2 (ATSR-2), the Advanced Along-Track Scanning Radiometer (AATSR) and the Sea and Land Surface Temperature Radiometer on Sentinel 3A (SLSTRA); and data from; the Moderate Imaging Spectroradiometer on Earth Observation System - Terra (MODIS Terra) to fill the gap between AATSR and SLSTR. So, the instruments contributing to the time series are: ATSR-2 from August 1995 to July 2002; AATSR from August 2002 to March 2012; MODIS Terra from April 2012 to July 2016; and SLSTRA from August 2016 to December 2020. Inter-instrument biases are accounted for by cross-calibration with the Infrared Atmospheric Sounding Interferometer (IASI) instruments on Meteorological Operational (METOP) satellites" } }, { "ob_id": 12677, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 847, "uuid": "e448141cadd04550aa19dac5601af34d", "short_code": "instr", "title": "Advanced Along-Track Scanning Radiometer (AATSR)", "abstract": "The Advanced Along-Track Scanning Radiometer (AATSR) measures global Sea Surface Temperature (SST) from space to the highest possible levels of accuracy and stability, as required for climate research and monitoring. It is the third in the ATSR series, and is a payload instrument on ESA's ENVISAT." }, "relatedTo": { "ob_id": 34740, "uuid": "6825231fd8d1437788ddb667d64c0720", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) Land surface temperature (LST) time series level 3 supercollated (L3S) global product (1995-2020), version 2.00", "abstract": "The dataset is comprised of LSTs from a series of instruments with a common heritage: the Along-Track Scanning Radiometer 2 (ATSR-2), the Advanced Along-Track Scanning Radiometer (AATSR) and the Sea and Land Surface Temperature Radiometer on Sentinel 3A (SLSTRA); and data from; the Moderate Imaging Spectroradiometer on Earth Observation System - Terra (MODIS Terra) to fill the gap between AATSR and SLSTR. So, the instruments contributing to the time series are: ATSR-2 from August 1995 to July 2002; AATSR from August 2002 to March 2012; MODIS Terra from April 2012 to July 2016; and SLSTRA from August 2016 to December 2020. Inter-instrument biases are accounted for by cross-calibration with the Infrared Atmospheric Sounding Interferometer (IASI) instruments on Meteorological Operational (METOP) satellites" } }, { "ob_id": 12678, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 34740, "uuid": "6825231fd8d1437788ddb667d64c0720", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) Land surface temperature (LST) time series level 3 supercollated (L3S) global product (1995-2020), version 2.00", "abstract": "The dataset is comprised of LSTs from a series of instruments with a common heritage: the Along-Track Scanning Radiometer 2 (ATSR-2), the Advanced Along-Track Scanning Radiometer (AATSR) and the Sea and Land Surface Temperature Radiometer on Sentinel 3A (SLSTRA); and data from; the Moderate Imaging Spectroradiometer on Earth Observation System - Terra (MODIS Terra) to fill the gap between AATSR and SLSTR. So, the instruments contributing to the time series are: ATSR-2 from August 1995 to July 2002; AATSR from August 2002 to March 2012; MODIS Terra from April 2012 to July 2016; and SLSTRA from August 2016 to December 2020. Inter-instrument biases are accounted for by cross-calibration with the Infrared Atmospheric Sounding Interferometer (IASI) instruments on Meteorological Operational (METOP) satellites" } }, { "ob_id": 12679, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 34740, "uuid": "6825231fd8d1437788ddb667d64c0720", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) Land surface temperature (LST) time series level 3 supercollated (L3S) global product (1995-2020), version 2.00", "abstract": "The dataset is comprised of LSTs from a series of instruments with a common heritage: the Along-Track Scanning Radiometer 2 (ATSR-2), the Advanced Along-Track Scanning Radiometer (AATSR) and the Sea and Land Surface Temperature Radiometer on Sentinel 3A (SLSTRA); and data from; the Moderate Imaging Spectroradiometer on Earth Observation System - Terra (MODIS Terra) to fill the gap between AATSR and SLSTR. So, the instruments contributing to the time series are: ATSR-2 from August 1995 to July 2002; AATSR from August 2002 to March 2012; MODIS Terra from April 2012 to July 2016; and SLSTRA from August 2016 to December 2020. Inter-instrument biases are accounted for by cross-calibration with the Infrared Atmospheric Sounding Interferometer (IASI) instruments on Meteorological Operational (METOP) satellites" } } ] }, { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12680, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 847, "uuid": "e448141cadd04550aa19dac5601af34d", "short_code": "instr", "title": "Advanced Along-Track Scanning Radiometer (AATSR)", "abstract": "The Advanced Along-Track Scanning Radiometer (AATSR) measures global Sea Surface Temperature (SST) from space to the highest possible levels of accuracy and stability, as required for climate research and monitoring. It is the third in the ATSR series, and is a payload instrument on ESA's ENVISAT." }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12681, "platform": { "ob_id": 10906, "uuid": "5a1076bffc8c4c5d8a2ff3a4cfb29846", "short_code": "plat", "title": "Aqua Satellite, part of the Earth Observation System Afternoon Constellation (EOS-PM)", "abstract": "Aqua, launched on 4th April 2002, is a polar-orbiting satellite within the Afternoon Constellation (A-Train) that have equator crossings around 13:30 and 01:30 under NASA's Earth Obseration System (EOS). The satellite carries Atmospheric Infrared Sounder (AIRS), Advanced Microwave Sounding Unit (AMSU-A), Humidity Sounder for Brazil (HSB), Advanced Microwave Scanning Radiometer for EOS (AMSR-E), Moderate-Resolution Imaging Spectroradiometer (MODIS) and Clouds and the Earth's Radiant Energy System (CERES), and these collect data on the Earth's atmospheric conditions, snow and ice, sea surface temperature and ocean productivity, and soil moisture. Aqua was the first member launched of a group of satellites termed the Afternoon Constellation, or sometimes the A-Train. " }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12682, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12683, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12684, "platform": { "ob_id": 26990, "uuid": "3478f3a96c7e4610a1973a535ee6439e", "short_code": "plat", "title": "Sentinel 3B", "abstract": "Sentinel 3B was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 25th April 2018." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12685, "platform": { "ob_id": 1794, "uuid": "b5c9d7eb5e4f463dbd1aac7a105fefc3", "short_code": "plat", "title": "Geostationary Operational Environmental Satellite - GOES-12", "abstract": "NASA geostationary weather satellite which was launched on July 23, 2001 and operated until 2010" }, "instrument": { "ob_id": 1787, "uuid": "3b48ced7f491450bbea547d3b1481069", "short_code": "instr", "title": "GOES Imager", "abstract": "The GOES Imager is a multi-channel instrument designed to sense radiant and solar-reflected energy from sampled areas of the Earth. The multi-element spectral channels simultaneously sweep east-west and west-east along a north-to-south path by means of a two-axis mirror scan system. The instrument can produce full-Earth disc images, sector images containing the edges of the Earth, and various sizes of area scans completely enclosed within the Earth scene using a new flexible scan system. A five-channel monitoring system makes it possible to produce a wide variety of image products from imager data." }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12686, "platform": { "ob_id": 34747, "uuid": "442c12d7d2f14ae3b651fca33698ba18", "short_code": "plat", "title": "Geostationary Operational Environmental Satellite - GOES-13", "abstract": "NASA geostationary weather satellite which was launched on 24th May, 2006 and operated until 2019" }, "instrument": { "ob_id": 1787, "uuid": "3b48ced7f491450bbea547d3b1481069", "short_code": "instr", "title": "GOES Imager", "abstract": "The GOES Imager is a multi-channel instrument designed to sense radiant and solar-reflected energy from sampled areas of the Earth. The multi-element spectral channels simultaneously sweep east-west and west-east along a north-to-south path by means of a two-axis mirror scan system. The instrument can produce full-Earth disc images, sector images containing the edges of the Earth, and various sizes of area scans completely enclosed within the Earth scene using a new flexible scan system. A five-channel monitoring system makes it possible to produce a wide variety of image products from imager data." }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12687, "platform": { "ob_id": 34748, "uuid": "b0e4c487c12745b78295372df69a8975", "short_code": "plat", "title": "Geostationary Operational Environmental Satellite - GOES-16", "abstract": "NASA geostationary weather satellite which was launched on19th November 2016" }, "instrument": { "ob_id": 34749, "uuid": "ce90214806a74db290afae7a335ba80c", "short_code": "instr", "title": "Advanced Baseline Imager (ABI)", "abstract": "The Advanced Baseline Imager (ABI) is a multi-purpose visible/IR imager flown on the GOES 3rd generation satellites." }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12688, "platform": { "ob_id": 2650, "uuid": "07ef82cad2ec4bc79efb7ba41b7043df", "short_code": "plat", "title": "Meteosat Second Generation 1 (MSG-1) or METEOSAT-8", "abstract": "Launched on 28 August 2002, the first Meteosat Second Generation (MSG) satellite became operational on 29 January 2004, when it was redesignated Meteosat-8. Since then it has continuously returned highly detailed imagery of Europe, the North Atlantic and Africa every 15 minutes, for operational use by meteorologists.\n MSG-1 has a nominal lifetime of seven years." }, "instrument": { "ob_id": 34750, "uuid": "d2267ea03a7a49cab1bc221d3809eb93", "short_code": "instr", "title": "Spinning Enhanced Visible and InfraRed Imager - SEVIRI", "abstract": "The Spinning Enhanced Visible and InfraRed Imager (SEVIRI) instrument measures in 12 spectral channels and records data in a 15 minute cycle. It is flown on the Meteosat Second Generation geostationary satellites" }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12689, "platform": { "ob_id": 2658, "uuid": "b61deca60f694b21a49daeec9489f49a", "short_code": "plat", "title": "Meteosat Second Generation 2 (MSG-2) or METEOSAT-9", "abstract": "The second MSG was launched on 21 December 2005 on the same type of launcher as its predecessor - a standard Ariane 5 - from the same launch site - Kourou in French Guiana. It is currently in the same fixed section of orbital space as MSG-1 in geostationary orbit, close to where the equator meets the Greenwich meridian. \nThe reason for the duplication is simply to guarantee continuity of service in case of satellite failure. Weather satellites have become so crucial a part of our daily life that any long gap in service coverage has become inconceivable." }, "instrument": { "ob_id": 34750, "uuid": "d2267ea03a7a49cab1bc221d3809eb93", "short_code": "instr", "title": "Spinning Enhanced Visible and InfraRed Imager - SEVIRI", "abstract": "The Spinning Enhanced Visible and InfraRed Imager (SEVIRI) instrument measures in 12 spectral channels and records data in a 15 minute cycle. It is flown on the Meteosat Second Generation geostationary satellites" }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12690, "platform": { "ob_id": 34751, "uuid": "5c98f4d132a74cd48e1691fbec178b09", "short_code": "plat", "title": "METEOSAT-10", "abstract": "This is the third of the Meteosat Second Generation satellites." }, "instrument": { "ob_id": 34750, "uuid": "d2267ea03a7a49cab1bc221d3809eb93", "short_code": "instr", "title": "Spinning Enhanced Visible and InfraRed Imager - SEVIRI", "abstract": "The Spinning Enhanced Visible and InfraRed Imager (SEVIRI) instrument measures in 12 spectral channels and records data in a 15 minute cycle. It is flown on the Meteosat Second Generation geostationary satellites" }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12691, "platform": { "ob_id": 34752, "uuid": "34e3f2deab374a32b494aeaf9a4fa066", "short_code": "plat", "title": "METEOSAT-11", "abstract": "This is the fourth of the Meteosat Second Generation satellites." }, "instrument": { "ob_id": 34750, "uuid": "d2267ea03a7a49cab1bc221d3809eb93", "short_code": "instr", "title": "Spinning Enhanced Visible and InfraRed Imager - SEVIRI", "abstract": "The Spinning Enhanced Visible and InfraRed Imager (SEVIRI) instrument measures in 12 spectral channels and records data in a 15 minute cycle. It is flown on the Meteosat Second Generation geostationary satellites" }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12692, "platform": { "ob_id": 34755, "uuid": "7c19606648d940f595fc9be63384e540", "short_code": "plat", "title": "Himawari-6 (MTSAT-1R)", "abstract": "Himawari-6 (Multifunction Transport Satellite -1R) is a Japanese satellite, which is the first flight of the MTSAT series. It was launched on the 26th February 2005 and operated until 2015." }, "instrument": { "ob_id": 34753, "uuid": "2c103b6968234a0599f69ee6ab74e7e4", "short_code": "instr", "title": "Japanese Advanced Meteorological Imager (JAMI)", "abstract": "The Japanese Advanced Meteorological Imager (JAMI) is a multipurpose imager flown on the Japanese Himawari-6 (Multifunctional Transport Satellite - 1R)" }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } }, { "ob_id": 12693, "platform": { "ob_id": 34756, "uuid": "6e7611f19f31450ba9d9735824ccac62", "short_code": "plat", "title": "Himawari-7 (MTSAT-2)", "abstract": "Himawari-7 (Multifunction Transport Satellite - 2) is the second satellite in the Japanese MTSAT series of satellites. It was launched on 18th February 2006 and operated until 2016." }, "instrument": { "ob_id": 34754, "uuid": "e92cc8306e694cb48941857457fed7c6", "short_code": "instr", "title": "MTSAT-2 Imager", "abstract": "Multipurpose Imager on the MTSAT-2 (Multifunction Transport Satellite-2) Himawari-7" }, "relatedTo": { "ob_id": 34744, "uuid": "8dd100ae2cd64c1bbe86336a3dd96c9c", "short_code": "acq", "title": "Acquisition Process for the ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) and Geostationary Earth Orbit (GEO) Land surface temperature (LST) level 3 supercollated (L3S) global product (2009-2020), version 1.00", "abstract": "Data from the following instruments is included in the dataset: \r\ngeostationary: Imagers on Geostationary Operational Environmental Satellite (GOES) 12 and GOES 13, Advanced Baseline Imager (ABI) on GOES 16, Spinning Enhanced Visible Infra-Red Imager (SEVIRI) on Meteosat Second Generation (MSG) 1, MSG 2, MSG 3, and MSG 4, Japanese Advanced Meteorological Imager (JAMI) on Multifunctional Transport Satellite MTSAT) 1, and MTSAT 2; \r\nand polar:\r\nAdvanced Along-Track Scanning Radiometer (AATSR) on Environmental Satellite (Envisat), Moderate-resolution Imaging Spectroradiometer (MODIS) on Earth Observation System (EOS) - Aqua and EOS - Terra, Sea and Land Surface Temperature Radiometer SLSTR on Sentinel-3A and Sentinel-3B. However, it should be noted that which instruments contribute to a particular product file depends on depends on mission start and end dates and instrument downtimes" } } ] }, { "ob_id": 34780, "uuid": "dbb6b51c248e4e1fb733e7f1a1eb1fdc", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 319 airborne meteorological observations from the ORCHESTRA project", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [ { "ob_id": 34781, "uuid": "d29f557a318d47a5b630c7a9a6ed9399", "short_code": "mpop", "title": "BAS-MASIN flight 319", "abstract": "Flight details for BAS-MASIN flight number 319." } ], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12695, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. 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Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 34864, "uuid": "17d319bb3a82415ab3ce5774406dec1c", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 320 airborne meteorological observations from the ORCHESTRA project", "abstract": "" } } ] }, { "ob_id": 34900, "uuid": "adeac87c5fca4bd199d3c2bc005f6e1e", "short_code": "acq", "title": "Acquisition for: Water budget and Lagrangian analysis of tropical tropopause in simulations with Hadley Centre Global Environmental Model version 3 (HadGEM3)", "abstract": "", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [ 34901 ], "instrumentplatformpair_set": [] }, { "ob_id": 35030, "uuid": "dc4d069315444a64b05f55338da06b15", "short_code": "acq", "title": "ZAMG: Vaisala CL51 instrument deployed at Altmunster", "abstract": "Vaisala CL51 instrument instrument deployed at Altmunster operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG) providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12726, "platform": { "ob_id": 35031, "uuid": "78973fd9186c4347a8238c7b46f9e085", "short_code": "plat", "title": "ZAMG field site: Altmunster, Austria", "abstract": "Altmunster, Austria field site operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG).\n\nSite WIGOS id: 0-20000-0-11254. Details for this WIGOS station are presently unavailable in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 11254." }, "instrument": { "ob_id": 35026, "uuid": "5c93b83aa2d4442491b6e65f10bfc0d4", "short_code": "instr", "title": "ZAMG: Vaisala CL51 instrument", "abstract": "Vaisala CL51 instrument operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG) providing cloud base height and aerosol profile data." }, "relatedTo": { "ob_id": 35030, "uuid": "dc4d069315444a64b05f55338da06b15", "short_code": "acq", "title": "ZAMG: Vaisala CL51 instrument deployed at Altmunster", "abstract": "Vaisala CL51 instrument instrument deployed at Altmunster operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG) providing cloud base height and aerosol profile data." } } ] }, { "ob_id": 35035, "uuid": "7837c871e5c445ad998c0c58dfb40e19", "short_code": "acq", "title": "Acquisition for: ESA Snow Climate Change Initiative (Snow_cci): Snow Water Equivalent (SWE) level 3C daily global climate research data package (CRDP) (1979 – 2020), version 2.0", "abstract": "The ESA Snow_cci Snow Water Equivalent (SWE) data product is based on data from the Scanning Multichannel Microwave Radiometer (SMMR) operated on National Aeronautics and Space Administration’s (NASA) Nimbus-7 satellite, the Special Sensor Microwave / Imager (SSM/I) and the Special Sensor Microwave Imager / Sounder (SSMI/S) carried onboard the Defense Meteorological Satellite Program (DMSP) 5D- and F-series satellites. The satellite bands provide spatial resolutions between 15 and 69 km.", "imageDetails": [ 152 ], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12727, "platform": { "ob_id": 2629, "uuid": "9f1b0a2380cc47919b201880e0fee6de", "short_code": "plat", "title": "Defense Meteorological Satellite Program (DMSP) Satellites", "abstract": "DMSP satellites are used for strategic and tactical weather prediction to aid the U.S. military in planning operations at sea, on land and in the air. Equipped with a sophisticated sensor suite that can image visible and infrared cloud cover and measure precipitation, surface temperature, and soil moisture, the satellite collects specialized global meteorological, oceanographic, and solar-geophysical information in all weather conditions. The DMSP constellation comprises two spacecraft in near-polar orbits, C3 (command, control and communications), user terminals and weather centers." }, "instrument": { "ob_id": 2630, "uuid": "54f897597ec04c09b01095eb05c7419e", "short_code": "instr", "title": "Special Sensor Microwave / Imager (SSM/I)", "abstract": "The SSM/I is a seven-channel, four frequency, linearly-polarized, passive microwave radiometric system which measures atmospheric, ocean and terrain microwave brightness temperatures at 19.35, 22.235, 37.0 and 85.5 GHz. The data are used to obtain synoptic maps of critical atmospheric, oceanographic and selected land parameters on a global scale." }, "relatedTo": { "ob_id": 35035, "uuid": "7837c871e5c445ad998c0c58dfb40e19", "short_code": "acq", "title": "Acquisition for: ESA Snow Climate Change Initiative (Snow_cci): Snow Water Equivalent (SWE) level 3C daily global climate research data package (CRDP) (1979 – 2020), version 2.0", "abstract": "The ESA Snow_cci Snow Water Equivalent (SWE) data product is based on data from the Scanning Multichannel Microwave Radiometer (SMMR) operated on National Aeronautics and Space Administration’s (NASA) Nimbus-7 satellite, the Special Sensor Microwave / Imager (SSM/I) and the Special Sensor Microwave Imager / Sounder (SSMI/S) carried onboard the Defense Meteorological Satellite Program (DMSP) 5D- and F-series satellites. The satellite bands provide spatial resolutions between 15 and 69 km." } }, { "ob_id": 12728, "platform": { "ob_id": 458, "uuid": "b6d87ac1455348cd97a4386b38995dbb", "short_code": "plat", "title": "NIMBUS 7 Satellite", "abstract": "The NASA Nimbus 7 research-and-development polar-orbiting satellite served as a stabilized, earth-oriented platform for the testing of advanced systems for sensing and collecting data in the pollution, oceanographic and meteorological disciplines. It was launched on October 24, 1978." }, "instrument": { "ob_id": 2636, "uuid": "1578228cc3cf4b9fba0b88c61b58800b", "short_code": "instr", "title": "Scanning Multichannel Microwave Radiometer (SMMR)", "abstract": "The Scanning Multichannel Microwave Radiometer operated on NASA's Nimbus-7 satellite for more than eight years, from 26 October 1978 to 20 August 1987, transmitting data every other day. Intended to obtain ocean circulation parameters such as sea surface temperatures, low altitude winds, water vapor and cloud liquid water content on an all-weather basis, the SMMR is a ten channel instrument capable of receiving both horizontally and vertically polarized radiation. A parabolic antenna 79 cm in diameter reflected microwave emissions into a five-frequency feed horn. The antenna beam maintained a constant nadir angle of 42 degrees, resulting in an incidence angle of 50.3 degrees at Earth's surface. The antenna was forward viewing and rotated equally +/- 25 degrees about the satellite subtrack. The 50 degree scan provided a 780 km swath of the Earth's surface. Scan period was 4.096 seconds." }, "relatedTo": { "ob_id": 35035, "uuid": "7837c871e5c445ad998c0c58dfb40e19", "short_code": "acq", "title": "Acquisition for: ESA Snow Climate Change Initiative (Snow_cci): Snow Water Equivalent (SWE) level 3C daily global climate research data package (CRDP) (1979 – 2020), version 2.0", "abstract": "The ESA Snow_cci Snow Water Equivalent (SWE) data product is based on data from the Scanning Multichannel Microwave Radiometer (SMMR) operated on National Aeronautics and Space Administration’s (NASA) Nimbus-7 satellite, the Special Sensor Microwave / Imager (SSM/I) and the Special Sensor Microwave Imager / Sounder (SSMI/S) carried onboard the Defense Meteorological Satellite Program (DMSP) 5D- and F-series satellites. The satellite bands provide spatial resolutions between 15 and 69 km." } }, { "ob_id": 12729, "platform": { "ob_id": 2629, "uuid": "9f1b0a2380cc47919b201880e0fee6de", "short_code": "plat", "title": "Defense Meteorological Satellite Program (DMSP) Satellites", "abstract": "DMSP satellites are used for strategic and tactical weather prediction to aid the U.S. military in planning operations at sea, on land and in the air. Equipped with a sophisticated sensor suite that can image visible and infrared cloud cover and measure precipitation, surface temperature, and soil moisture, the satellite collects specialized global meteorological, oceanographic, and solar-geophysical information in all weather conditions. The DMSP constellation comprises two spacecraft in near-polar orbits, C3 (command, control and communications), user terminals and weather centers." }, "instrument": { "ob_id": 14771, "uuid": "b72976413c35455bab7316c9e71d3b8c", "short_code": "instr", "title": "Special Sensor Microwave Imager Sounder (SSMIS)", "abstract": "Beginning with the launch of the DMSP F-16 satellite on 18 October 2003, the SSMIS marks the commencement of a new series of passive microwave conically scanning imagers and sounders planned for launch over the next two decades. SSMIS improves upon the surface and atmospheric retrievals of the Special Sensor Microwave Imager (SSM/I) and the SSMIS imaging and sounding sensors share the same viewing geometry, thereby allowing surface parameters to be retrieved simultaneously. The SSMIS instrument is able to estimate atmospheric temperature, moisture, and surface parameters from data collected at frequencies ranging from 19 to 183 GHz over a swath width of 1707 km. SSMIS is currently carried aboard DMSP-F16, -F17, and -F18 satellites, and is slated for future missions aboard DMSP-F19 and -F20." }, "relatedTo": { "ob_id": 35035, "uuid": "7837c871e5c445ad998c0c58dfb40e19", "short_code": "acq", "title": "Acquisition for: ESA Snow Climate Change Initiative (Snow_cci): Snow Water Equivalent (SWE) level 3C daily global climate research data package (CRDP) (1979 – 2020), version 2.0", "abstract": "The ESA Snow_cci Snow Water Equivalent (SWE) data product is based on data from the Scanning Multichannel Microwave Radiometer (SMMR) operated on National Aeronautics and Space Administration’s (NASA) Nimbus-7 satellite, the Special Sensor Microwave / Imager (SSM/I) and the Special Sensor Microwave Imager / Sounder (SSMI/S) carried onboard the Defense Meteorological Satellite Program (DMSP) 5D- and F-series satellites. The satellite bands provide spatial resolutions between 15 and 69 km." } } ] }, { "ob_id": 35145, "uuid": "471aea4722e04c8ea0ae7a7ff1472f68", "short_code": "acq", "title": "ZAMG: Vaisala CL51 instrument deployed at Altmunster", "abstract": "Vaisala CL51 instrument instrument deployed at Altmunster operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG) providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12749, "platform": { "ob_id": 35031, "uuid": "78973fd9186c4347a8238c7b46f9e085", "short_code": "plat", "title": "ZAMG field site: Altmunster, Austria", "abstract": "Altmunster, Austria field site operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG).\n\nSite WIGOS id: 0-20000-0-11254. Details for this WIGOS station are presently unavailable in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 11254." }, "instrument": { "ob_id": 35026, "uuid": "5c93b83aa2d4442491b6e65f10bfc0d4", "short_code": "instr", "title": "ZAMG: Vaisala CL51 instrument", "abstract": "Vaisala CL51 instrument operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG) providing cloud base height and aerosol profile data." }, "relatedTo": { "ob_id": 35145, "uuid": "471aea4722e04c8ea0ae7a7ff1472f68", "short_code": "acq", "title": "ZAMG: Vaisala CL51 instrument deployed at Altmunster", "abstract": "Vaisala CL51 instrument instrument deployed at Altmunster operated by Zentralanstalt für Meteorologie und Geodynamik (ZAMG) providing cloud base height and aerosol profile data." } } ] }, { "ob_id": 35148, "uuid": "95f04a9e30d04ae591c48908c2e7abd2", "short_code": "acq", "title": "RMI: Vaisala CL51 instrument deployed at Arlon", "abstract": "Vaisala CL51 instrument instrument deployed at Arlon operated by Royal Meteorological Institute (RMI) providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12750, "platform": { "ob_id": 35046, "uuid": "4976dfcb70a94b83a4f9142928e0e22f", "short_code": "plat", "title": "RMI field site: Arlon, Belgium", "abstract": "Arlon, Belgium field site operated by Royal Meteorological Institute (RMI).\n\nSite WIGOS id: 0-56-101-70003. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool." }, "instrument": { "ob_id": 35045, "uuid": "0d4aea86436c427dab1b32d4cb6cc5e3", "short_code": "instr", "title": "RMI: Vaisala CL51 instrument.", "abstract": "Vaisala CL51 instrument operated by Royal Meteorological Institute (RMI) providing cloud base height and aerosol profile data" }, "relatedTo": { "ob_id": 35148, "uuid": "95f04a9e30d04ae591c48908c2e7abd2", "short_code": "acq", "title": "RMI: Vaisala CL51 instrument deployed at Arlon", "abstract": "Vaisala CL51 instrument instrument deployed at Arlon operated by Royal Meteorological Institute (RMI) providing cloud base height and aerosol profile data." } } ] }, { "ob_id": 35151, "uuid": "8be22581def94155a214246b38881be3", "short_code": "acq", "title": "UWO: Lufft CHM15k \"Nimbus\" instrument deployed at Western", "abstract": "Lufft CHM15k \"Nimbus\" instrument instrument deployed at Western operated by University of Western Ontario (UWO) providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12751, "platform": { "ob_id": 35051, "uuid": "053b302221824890ab6b18ed7359f0d0", "short_code": "plat", "title": "UWO field site: Western, Canada", "abstract": "Western, Canada field site operated by University of Western Ontario (UWO).\n\nSite WIGOS id: 0-20000-0-73009. Details for this WIGOS station are presently unavailable in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 73009." }, "instrument": { "ob_id": 35050, "uuid": "46864bfeced8468686947b52d4b39eb9", "short_code": "instr", "title": "UWO: Lufft CHM15k \"Nimbus\" instrument.", "abstract": "Lufft CHM15k \"Nimbus\" instrument operated by University of Western Ontario (UWO) providing cloud base height and aerosol profile data" }, "relatedTo": { "ob_id": 35151, "uuid": "8be22581def94155a214246b38881be3", "short_code": "acq", "title": "UWO: Lufft CHM15k \"Nimbus\" instrument deployed at Western", "abstract": "Lufft CHM15k \"Nimbus\" instrument instrument deployed at Western operated by University of Western Ontario (UWO) providing cloud base height and aerosol profile data." } } ] }, { "ob_id": 35154, "uuid": "ba3d5bce9c2d435ba1f2f19aa0e5cdbd", "short_code": "acq", "title": "DMHZ: Lufft CHM15k \"Nimbus\" instrument deployed at Gmp-Zagreb-Maksimir", "abstract": "Lufft CHM15k \"Nimbus\" instrument instrument deployed at Gmp-Zagreb-Maksimir operated by Croatian Meteorological and Hydrological Service (DMHZ) providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12752, "platform": { "ob_id": 35056, "uuid": "6a5599eb21be4319844bc16a17cdeef8", "short_code": "plat", "title": "DMHZ field site: Gmp Zagreb Maksimir, Croatia", "abstract": "Gmp-Zagreb-Maksimir, Croatia field site operated by Croatian Meteorological and Hydrological Service (DMHZ).\n\nSite WIGOS id: 0-20000-0-14240. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 14240." }, "instrument": { "ob_id": 35055, "uuid": "22eb8f02d1e6444bacb7048c6ea62019", "short_code": "instr", "title": "DMHZ: Lufft CHM15k \"Nimbus\" instrument.", "abstract": "Lufft CHM15k \"Nimbus\" instrument operated by Croatian Meteorological and Hydrological Service (DMHZ) providing cloud base height and aerosol profile data" }, "relatedTo": { "ob_id": 35154, "uuid": "ba3d5bce9c2d435ba1f2f19aa0e5cdbd", "short_code": "acq", "title": "DMHZ: Lufft CHM15k \"Nimbus\" instrument deployed at Gmp-Zagreb-Maksimir", "abstract": "Lufft CHM15k \"Nimbus\" instrument instrument deployed at Gmp-Zagreb-Maksimir operated by Croatian Meteorological and Hydrological Service (DMHZ) providing cloud base height and aerosol profile data." } } ] }, { "ob_id": 35157, "uuid": "b9e16dad1feb4d6c9d57c83a1b370f71", "short_code": "acq", "title": "Met Office: Vaisala CL31 instrument deployed at Akrotiri", "abstract": "Vaisala CL31 instrument instrument deployed at Akrotiri operated by Met Office providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12753, "platform": { "ob_id": 35061, "uuid": "7376b58c89a5481aa9995f472626c4e1", "short_code": "plat", "title": "Met Office field site: Akrotiri, Cyprus", "abstract": "Akrotiri, Cyprus field site operated by Met Office.\n\nSite WIGOS id: 0-20000-0-17601. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 17601." }, "instrument": { "ob_id": 12446, "uuid": "8672febc6b364ee49cae98a477ea6fa9", "short_code": "instr", "title": "Met Office: Vaisala CL31 Ceilometer", "abstract": "The Met Office own a number of Vaisala CL31 ceilometers used for detecting cloud base heights and also for obtaining backscatter profiles to aid ash cloud detection. The CL31 employs a pulsed diode laser LIDAR (light detection and ranging) technology, which enables it to detect three cloud layers simultaneously.\r\n\r\nFast measurement helps to detect thin cloud patches below a solid cloud base. The CL31 provides a full backscatter profile for data visualization and research purpose. The CL31 beam can be directed either vertically or tilted. The tilting option together with the novel optics design provides enhanced performance during precipitation by improving the protection given by the shield. In the measurement unit, a tilt angle sensor automatically corrects the measured cloud distance reading to vertical cloud base height." }, "relatedTo": { "ob_id": 35157, "uuid": "b9e16dad1feb4d6c9d57c83a1b370f71", "short_code": "acq", "title": "Met Office: Vaisala CL31 instrument deployed at Akrotiri", "abstract": "Vaisala CL31 instrument instrument deployed at Akrotiri operated by Met Office providing cloud base height and aerosol profile data." } } ] }, { "ob_id": 35160, "uuid": "c88f146ff9004439a508a4b13ebe0fd4", "short_code": "acq", "title": "CHMI: Vaisala CL31 instrument deployed at Cervena", "abstract": "Vaisala CL31 instrument instrument deployed at Cervena operated by Czech Hydrometeorological Institute (CHMI) providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12754, "platform": { "ob_id": 35066, "uuid": "59552e6163f54a5fb6615f54dd32f36d", "short_code": "plat", "title": "CHMI field site: Cervena, Czech Republic", "abstract": "Cervena, Czech Republic field site operated by Czech Hydrometeorological Institute (CHMI).\n\nSite WIGOS id: 0-20000-0-11766. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 11766." }, "instrument": { "ob_id": 35065, "uuid": "d8dbeefe9f224bf28505a71d9e674b87", "short_code": "instr", "title": "CHMI: Vaisala CL31 instrument.", "abstract": "Vaisala CL31 instrument operated by Czech Hydrometeorological Institute (CHMI) providing cloud base height and aerosol profile data" }, "relatedTo": { "ob_id": 35160, "uuid": "c88f146ff9004439a508a4b13ebe0fd4", "short_code": "acq", "title": "CHMI: Vaisala CL31 instrument deployed at Cervena", "abstract": "Vaisala CL31 instrument instrument deployed at Cervena operated by Czech Hydrometeorological Institute (CHMI) providing cloud base height and aerosol profile data." } } ] }, { "ob_id": 35163, "uuid": "518e98a23cd044bf81e78d8097405584", "short_code": "acq", "title": "FMI: Vaisala CL31 instrument deployed at Alajarvi-Moksy", "abstract": "Vaisala CL31 instrument instrument deployed at Alajarvi-Moksy operated by Finnish Meteorological Institution (FMI) providing cloud base height and aerosol profile data.", "imageDetails": [], "mobilePlatformOperation": [], "independentInstrument": [], "instrumentplatformpair_set": [ { "ob_id": 12755, "platform": { "ob_id": 35071, "uuid": "687c0e76e9a0471bae59865df5b95d6e", "short_code": "plat", "title": "FMI field site: Alajarvi Moksy, Finland", "abstract": "Alajarvi-Moksy, Finland field site operated by Finnish Meteorological Institution (FMI).\n\nSite WIGOS id: 0-246-0-101533. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool." }, "instrument": { "ob_id": 35070, "uuid": "242f6c59d87f4a63b4fd71348d9e0e77", "short_code": "instr", "title": "FMI: Vaisala CL31 instrument.", "abstract": "Vaisala CL31 instrument operated by Finnish Meteorological Institution (FMI) providing cloud base height and aerosol profile data" }, "relatedTo": { "ob_id": 35163, "uuid": "518e98a23cd044bf81e78d8097405584", "short_code": "acq", "title": "FMI: Vaisala CL31 instrument deployed at Alajarvi-Moksy", "abstract": "Vaisala CL31 instrument instrument deployed at Alajarvi-Moksy operated by Finnish Meteorological Institution (FMI) providing cloud base height and aerosol profile data." } } ] } ] }