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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. 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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":45750,"uuid":"3b20de4408754b0cb19751dd6c2557ea","short_code":"acq","title":"CCI Biomass, v7.0","abstract":"CCI Biomass, v7.0"}},{"ob_id":14663,"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":45750,"uuid":"3b20de4408754b0cb19751dd6c2557ea","short_code":"acq","title":"CCI Biomass, v7.0","abstract":"CCI Biomass, v7.0"}},{"ob_id":14664,"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":45750,"uuid":"3b20de4408754b0cb19751dd6c2557ea","short_code":"acq","title":"CCI Biomass, v7.0","abstract":"CCI Biomass, v7.0"}},{"ob_id":14665,"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":45750,"uuid":"3b20de4408754b0cb19751dd6c2557ea","short_code":"acq","title":"CCI Biomass, v7.0","abstract":"CCI Biomass, v7.0"}}]},{"ob_id":45753,"uuid":"8fe00df1ce11438aa28f35b5acda1718","short_code":"acq","title":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME/ERS-2","abstract":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME/ERS-2","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14666,"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":45730,"uuid":"e6d3307b80f247f7b43bf0f7a2bc19db","short_code":"instr","title":"GOME","abstract":"http://catalogue.ceda.ac.uk/uuid/c9765f8ac44c51a302df55478b97774e"},"relatedTo":{"ob_id":45753,"uuid":"8fe00df1ce11438aa28f35b5acda1718","short_code":"acq","title":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME/ERS-2","abstract":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME/ERS-2"}}]},{"ob_id":45756,"uuid":"7ce156c23f104701a9cf9f08c5bc6ea2","short_code":"acq","title":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from SCIAMACHY/ENVISAT","abstract":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from SCIAMACHY/ENVISAT","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14667,"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":45756,"uuid":"7ce156c23f104701a9cf9f08c5bc6ea2","short_code":"acq","title":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from SCIAMACHY/ENVISAT","abstract":"Acquisition for the gridded nitrogen dioxide (NO2) monthly Level 3 data from SCIAMACHY/ENVISAT"}}]},{"ob_id":45759,"uuid":"547410a23e29400b9318aa42b611e530","short_code":"acq","title":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C","abstract":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14668,"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). 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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":45759,"uuid":"547410a23e29400b9318aa42b611e530","short_code":"acq","title":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C","abstract":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C"}},{"ob_id":14669,"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":45759,"uuid":"547410a23e29400b9318aa42b611e530","short_code":"acq","title":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C","abstract":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C"}},{"ob_id":14670,"platform":{"ob_id":32134,"uuid":"db86d823aded474e8c76bd69d092d26b","short_code":"plat","title":"Metop-C","abstract":"Metop-C launched on 7th  November 2018, represents the first in a series of three satellites forming the space segment of the EUMETSAT Polar System (EPS). Metop-C is Europe's third 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":45759,"uuid":"547410a23e29400b9318aa42b611e530","short_code":"acq","title":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C","abstract":"Acquisition of the gridded nitrogen dioxide (NO2) monthly Level 3 data from GOME-2/MetOp-A,B,C"}}]},{"ob_id":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14671,"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":39313,"uuid":"6002b664e5984e759b3e4b20e60a7327","short_code":"instr","title":"VEGETATION-1","abstract":"Instrument on SPOT-4"},"relatedTo":{"ob_id":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}},{"ob_id":14672,"platform":{"ob_id":39318,"uuid":"2e6a8543a3b64bd1bc46f6b0ef926f49","short_code":"plat","title":"SPOT-5","abstract":"SPOT 5 (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 4 May 2002 and ceased operations after a malfunction in March 2015."},"instrument":{"ob_id":39317,"uuid":"2a348e2cdf844e8d81a8c9c4771cec54","short_code":"instr","title":"VEGETATION-2","abstract":"Instrument on SPOT-5"},"relatedTo":{"ob_id":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}},{"ob_id":14673,"platform":{"ob_id":41217,"uuid":"7b560c79ca624939a82eef0c42aa8806","short_code":"plat","title":"PROBA-V","abstract":"The Project for On-Board Autonomy - Végétation (PROBA-V) is the third flight unit of ESA's PROBA series of minisatellites, launched on 7th May 2013. Its mission is to map land cover and vegetation growth globally."},"instrument":{"ob_id":41216,"uuid":"6bea7394ae8e441fbf8f1ae3bf97c6dc","short_code":"instr","title":"Végétation-P","abstract":"The Végétation for PROBA (Végétation-P) instrument is a 4-channel VIS/NIR/SWIR radiometer  on board ESA's PROBA-V minisatellite, launched on 7th May 2013."},"relatedTo":{"ob_id":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}},{"ob_id":14674,"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":1817,"uuid":"eff26a2de66b4c6b9f71a15e875f52c5","short_code":"instr","title":"Advanced Very High Resolution Radiometer 3 (AVHRR/3)","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":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}},{"ob_id":14675,"platform":{"ob_id":32134,"uuid":"db86d823aded474e8c76bd69d092d26b","short_code":"plat","title":"Metop-C","abstract":"Metop-C launched on 7th  November 2018, represents the first in a series of three satellites forming the space segment of the EUMETSAT Polar System (EPS). Metop-C is Europe's third polar-orbiting meteorological satellite"},"instrument":{"ob_id":1817,"uuid":"eff26a2de66b4c6b9f71a15e875f52c5","short_code":"instr","title":"Advanced Very High Resolution Radiometer 3 (AVHRR/3)","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":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}},{"ob_id":14676,"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":37715,"uuid":"cf2860c2605c425db213099504de694b","short_code":"instr","title":"Suomi NPP: Visible Infrared Imaging Radiometer Suite (VIIRS)","abstract":"The Visible Infrared Imaging Radiometer Suite (VIIRS) instrument is mounted on the Suomi National Polar-orbiting Partnership satellite (SNPP), which was launched on the 28th October 2011. This instrument began acquiring imagery on the 21st November 2011. It was developed to support studies of physical and biological properties of land and ocean surfaces, and of cloud and aerosol properties. \r\n\r\nThe satellite, and by extension the VIIRS instrument, belong jointly to NASA (National Aeronautics and Space Administration) and NOAA (National Oceanic and Atmospheric Administration). Data from this instrument is used to support >20 Environmental Data Records (EDR):\r\n- Clouds\r\n- Sea Surface Temperature (SST)\r\n- Ocean colour\r\n- Polar wind\r\n- Vegetation fraction\r\n- Aerosols\r\n- Fire, snow and ice\r\n- Vegetation monitoring\r\n\r\nAmong these applications is processing for Level 2 data products such as the NPP Cloud products for spectral bands 3, 6 and 7, which are of auxiliary use to images acquired by the TROPOMI instrument onboard Sentinel 5P (which flies in loose formation with the SNPP satellite)."},"relatedTo":{"ob_id":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}},{"ob_id":14677,"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":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}},{"ob_id":14678,"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":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":45765,"uuid":"5cbc9f221dae40fc88288b093abbc9e2","short_code":"acq","title":"Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v2 product","abstract":"The CRDP-2 dataset from the ESA Climate Change Initiative Vegetation Parameters CCI uses SPOT4/5-VEGETATION1/2, PROBA-V, Metop/A/C-AVHRR, SNPP-VIIRS and Sentinel-3A/B-OLCI as input datasets"}}]},{"ob_id":45769,"uuid":"b5235b2a22e74151adc631cc6d74cf93","short_code":"acq","title":"Acquisition for Precursors daily and monthly L3 SO2 from TROPOMI, version 1.0","abstract":"Acquisition for Precursors daily and monthly L3 SO2 from TROPOMI, version 1.0","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14679,"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":45769,"uuid":"b5235b2a22e74151adc631cc6d74cf93","short_code":"acq","title":"Acquisition for Precursors daily and monthly L3 SO2 from TROPOMI, version 1.0","abstract":"Acquisition for Precursors daily and monthly L3 SO2 from TROPOMI, version 1.0"}}]},{"ob_id":45791,"uuid":"b34a199a17cd4719bb428326edfa5d47","short_code":"acq","title":"Acquisition for: Copernicus Climate Change Service: Cloud Properties L3 data","abstract":"Acquisition for: Copernicus Climate Change Service: Cloud Properties L3 data from the SLSTR series","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14680,"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":45791,"uuid":"b34a199a17cd4719bb428326edfa5d47","short_code":"acq","title":"Acquisition for: Copernicus Climate Change Service: Cloud Properties L3 data","abstract":"Acquisition for: Copernicus Climate Change Service: Cloud Properties L3 data from the SLSTR series"}},{"ob_id":14681,"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":45791,"uuid":"b34a199a17cd4719bb428326edfa5d47","short_code":"acq","title":"Acquisition for: Copernicus Climate Change Service: Cloud Properties L3 data","abstract":"Acquisition for: Copernicus Climate Change Service: Cloud Properties L3 data from the SLSTR series"}}]},{"ob_id":45802,"uuid":"c272e9203caa4050bbac186460cc0c75","short_code":"acq","title":"Acquisition for CCI Precursors monthly L3 SO2 from GOME, version 1.0","abstract":"Acquisition for CCI Precursors monthly L3 SO2 from GOME, version 1.0","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14682,"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":45730,"uuid":"e6d3307b80f247f7b43bf0f7a2bc19db","short_code":"instr","title":"GOME","abstract":"http://catalogue.ceda.ac.uk/uuid/c9765f8ac44c51a302df55478b97774e"},"relatedTo":{"ob_id":45802,"uuid":"c272e9203caa4050bbac186460cc0c75","short_code":"acq","title":"Acquisition for CCI Precursors monthly L3 SO2 from GOME, version 1.0","abstract":"Acquisition for CCI Precursors monthly L3 SO2 from GOME, version 1.0"}}]},{"ob_id":45805,"uuid":"eba03d6d8a414190a382a02f0f19ad74","short_code":"acq","title":"Acquisition for CCI Precursors daily and monthly L3 SO2 from OMI, version 1.0","abstract":"Acquisition for CCI Precursors daily and monthly L3 SO2 from OMI, version 1.0","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14683,"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":45804,"uuid":"c43349a0733a4d97857d4634f23e98c3","short_code":"instr","title":"OMI (Ozone Measuring Instrument)","abstract":"OMI (Ozone Measuring Instrument)"},"relatedTo":{"ob_id":45805,"uuid":"eba03d6d8a414190a382a02f0f19ad74","short_code":"acq","title":"Acquisition for CCI Precursors daily and monthly L3 SO2 from OMI, version 1.0","abstract":"Acquisition for CCI Precursors daily and monthly L3 SO2 from OMI, version 1.0"}}]},{"ob_id":45813,"uuid":"c27b256ce39242d3aa7d21770f1b511d","short_code":"acq","title":"Acquisition for Oxford Radcliffe Obsevatory historical met obs","abstract":"Acquisition for Oxford Radcliffe Obsevatory historical met obs","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14684,"platform":{"ob_id":44246,"uuid":"e9239ef8fda8479aac71e3f5e51bbae7","short_code":"plat","title":"Met Office: Oxford Radcliffe","abstract":"Oxford Radcliffe is a weather station part of the Met Office UK network of meteorological weather stations. It is located in Oxfordshire, UK. It was used to as part of a network of stations contributing to Central England Temperature series from 1853-1877.\r\n\r\nLatitude: 51.76\r\nLongitude: -1.26\r\nElevation: 63 m\r\n\r\nIdentifiers for this site\r\n - DCNN 4522\r\n - WIND 452201\r\n - RAIN 256221\r\n - RAIN 256222\r\n - RAIN 256223\r\n - RAIN 256224\r\n - RAIN 256225\r\n - RAIN 256226\r\n\r\nMIDAS station SRC ID: 606\r\n\r\nFor further details on the station refer to the station entry in the MIDAS Station tool linked to on this record."},"instrument":{"ob_id":1219,"uuid":"0db0c571d7444d07bc1e90d8aef09db1","short_code":"instr","title":"Station Observer","abstract":"A station observer is an observer reporting daily and hourly specific weather parameters which cannot be measured by an instrument e.g. cloud type, cloud amount, present and past weather and state of ground. Station observers are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45813,"uuid":"c27b256ce39242d3aa7d21770f1b511d","short_code":"acq","title":"Acquisition for Oxford Radcliffe Obsevatory historical met obs","abstract":"Acquisition for Oxford Radcliffe Obsevatory historical met obs"}}]},{"ob_id":45817,"uuid":"2b27d164f1264727a68aba178435dfc3","short_code":"acq","title":"Acquisition for the Devon Exeter Institute met records","abstract":"Acquisition for the Devon Exeter Institute met records","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14685,"platform":{"ob_id":45816,"uuid":"7d7573093fad4b63a3ee3293c171ca00","short_code":"plat","title":"Devon Exeter Institute","abstract":"Devon Exeter Institute meteorological field site was operated from 1817 through to the latter part of the 20th century. It has the following identifiers:\r\n\r\nMIDAS station source id (src_id): 8305\r\nRAIN: 360143, 360144\r\n\r\nGeographic location details:\r\nLatitude (decimal degrees):\t50.72242 ( WGS 84 value: 50.72297 )\r\nLongitude (decimal degrees):\t-3.52878 ( WGS 84 value: -3.52997 )\r\nGrid ref:\tSX 921926  (Easting: 292100 Northing: 92600)\r\nElevation:\t40.0 meters"},"instrument":{"ob_id":1219,"uuid":"0db0c571d7444d07bc1e90d8aef09db1","short_code":"instr","title":"Station Observer","abstract":"A station observer is an observer reporting daily and hourly specific weather parameters which cannot be measured by an instrument e.g. cloud type, cloud amount, present and past weather and state of ground. Station observers are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45817,"uuid":"2b27d164f1264727a68aba178435dfc3","short_code":"acq","title":"Acquisition for the Devon Exeter Institute met records","abstract":"Acquisition for the Devon Exeter Institute met records"}},{"ob_id":14686,"platform":{"ob_id":45816,"uuid":"7d7573093fad4b63a3ee3293c171ca00","short_code":"plat","title":"Devon Exeter Institute","abstract":"Devon Exeter Institute meteorological field site was operated from 1817 through to the latter part of the 20th century. It has the following identifiers:\r\n\r\nMIDAS station source id (src_id): 8305\r\nRAIN: 360143, 360144\r\n\r\nGeographic location details:\r\nLatitude (decimal degrees):\t50.72242 ( WGS 84 value: 50.72297 )\r\nLongitude (decimal degrees):\t-3.52878 ( WGS 84 value: -3.52997 )\r\nGrid ref:\tSX 921926  (Easting: 292100 Northing: 92600)\r\nElevation:\t40.0 meters"},"instrument":{"ob_id":1211,"uuid":"71f065ddece242a8aa5d490692dda64b","short_code":"instr","title":"Thermometer","abstract":"A thermometer is an instrument used to measure temperature and can be applied to calculate humidity. Electrical Resistance Thermometers (ERT or PRT), liquid-in-glass thermometers, wet bulb thermometers and Climate Data Loggers (CDL) are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45817,"uuid":"2b27d164f1264727a68aba178435dfc3","short_code":"acq","title":"Acquisition for the Devon Exeter Institute met records","abstract":"Acquisition for the Devon Exeter Institute met records"}},{"ob_id":14687,"platform":{"ob_id":45816,"uuid":"7d7573093fad4b63a3ee3293c171ca00","short_code":"plat","title":"Devon Exeter Institute","abstract":"Devon Exeter Institute meteorological field site was operated from 1817 through to the latter part of the 20th century. It has the following identifiers:\r\n\r\nMIDAS station source id (src_id): 8305\r\nRAIN: 360143, 360144\r\n\r\nGeographic location details:\r\nLatitude (decimal degrees):\t50.72242 ( WGS 84 value: 50.72297 )\r\nLongitude (decimal degrees):\t-3.52878 ( WGS 84 value: -3.52997 )\r\nGrid ref:\tSX 921926  (Easting: 292100 Northing: 92600)\r\nElevation:\t40.0 meters"},"instrument":{"ob_id":1212,"uuid":"a975f76f87f343af8f3e11cac9852f77","short_code":"instr","title":"Barometer","abstract":"A barometer is an instrument used to measure pressure. Climate Data Loggers (CDL), Automatic Weather Stations (AWS) and Enhanced Synoptic Automatic Weather Station (ESAWS) have barometric pressure sensors installed. Data collected by these systems can then be used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45817,"uuid":"2b27d164f1264727a68aba178435dfc3","short_code":"acq","title":"Acquisition for the Devon Exeter Institute met records","abstract":"Acquisition for the Devon Exeter Institute met records"}}]},{"ob_id":45820,"uuid":"04435d278d0248809f6d3eda3a170469","short_code":"acq","title":"Acquisition for the Leeds Philosophical Society met records","abstract":"Acquisition for the Leeds Philosophical Society met records","imageDetails":[],"mobilePlatformOperation":[],"independentInstrument":[],"instrumentplatformpair_set":[{"ob_id":14688,"platform":{"ob_id":45821,"uuid":"a7cfa4b2b8f5455ba5547150ce36abb2","short_code":"plat","title":"Leeds Philosophial Hall meteorological site","abstract":"The Leeds Philosophical Hall meteorological site was located at:\r\n\r\nLatitude (decimal degrees):\t53.79943 ( WGS 84 value: 53.79965 )\r\nLongitude (decimal degrees):\t-1.54751 ( WGS 84 value: -1.54905 )\r\nGrid ref:\tSE 298338  (Easting: 429800 Northing: 433800)\r\nElevation:\t42.0 meters\r\n\r\nWith station IDs:\r\nRAIN 076081\r\nMIDAS src_id: 2577"},"instrument":{"ob_id":1219,"uuid":"0db0c571d7444d07bc1e90d8aef09db1","short_code":"instr","title":"Station Observer","abstract":"A station observer is an observer reporting daily and hourly specific weather parameters which cannot be measured by an instrument e.g. cloud type, cloud amount, present and past weather and state of ground. Station observers are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45820,"uuid":"04435d278d0248809f6d3eda3a170469","short_code":"acq","title":"Acquisition for the Leeds Philosophical Society met records","abstract":"Acquisition for the Leeds Philosophical Society met records"}},{"ob_id":14689,"platform":{"ob_id":45821,"uuid":"a7cfa4b2b8f5455ba5547150ce36abb2","short_code":"plat","title":"Leeds Philosophial Hall meteorological site","abstract":"The Leeds Philosophical Hall meteorological site was located at:\r\n\r\nLatitude (decimal degrees):\t53.79943 ( WGS 84 value: 53.79965 )\r\nLongitude (decimal degrees):\t-1.54751 ( WGS 84 value: -1.54905 )\r\nGrid ref:\tSE 298338  (Easting: 429800 Northing: 433800)\r\nElevation:\t42.0 meters\r\n\r\nWith station IDs:\r\nRAIN 076081\r\nMIDAS src_id: 2577"},"instrument":{"ob_id":1211,"uuid":"71f065ddece242a8aa5d490692dda64b","short_code":"instr","title":"Thermometer","abstract":"A thermometer is an instrument used to measure temperature and can be applied to calculate humidity. Electrical Resistance Thermometers (ERT or PRT), liquid-in-glass thermometers, wet bulb thermometers and Climate Data Loggers (CDL) are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45820,"uuid":"04435d278d0248809f6d3eda3a170469","short_code":"acq","title":"Acquisition for the Leeds Philosophical Society met records","abstract":"Acquisition for the Leeds Philosophical Society met records"}},{"ob_id":14690,"platform":{"ob_id":45821,"uuid":"a7cfa4b2b8f5455ba5547150ce36abb2","short_code":"plat","title":"Leeds Philosophial Hall meteorological site","abstract":"The Leeds Philosophical Hall meteorological site was located at:\r\n\r\nLatitude (decimal degrees):\t53.79943 ( WGS 84 value: 53.79965 )\r\nLongitude (decimal degrees):\t-1.54751 ( WGS 84 value: -1.54905 )\r\nGrid ref:\tSE 298338  (Easting: 429800 Northing: 433800)\r\nElevation:\t42.0 meters\r\n\r\nWith station IDs:\r\nRAIN 076081\r\nMIDAS src_id: 2577"},"instrument":{"ob_id":1212,"uuid":"a975f76f87f343af8f3e11cac9852f77","short_code":"instr","title":"Barometer","abstract":"A barometer is an instrument used to measure pressure. Climate Data Loggers (CDL), Automatic Weather Stations (AWS) and Enhanced Synoptic Automatic Weather Station (ESAWS) have barometric pressure sensors installed. Data collected by these systems can then be used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. 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Station observers are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45830,"uuid":"1a126232c40f4192bfcece5b363c01b3","short_code":"acq","title":"Acquisition for the Carbeth met records","abstract":"Acquisition for the Carbeth met records"}},{"ob_id":14692,"platform":{"ob_id":45831,"uuid":"69eef5491d4a4f8aa87ff09cc460595b","short_code":"plat","title":"Carbeth Meteorological Site","abstract":"Carbeth Meteorological Site was located in Stirlingshire."},"instrument":{"ob_id":1211,"uuid":"71f065ddece242a8aa5d490692dda64b","short_code":"instr","title":"Thermometer","abstract":"A thermometer is an instrument used to measure temperature and can be applied to calculate humidity. Electrical Resistance Thermometers (ERT or PRT), liquid-in-glass thermometers, wet bulb thermometers and Climate Data Loggers (CDL) are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. 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Data collected by these systems can then be used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. 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Station observers are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS."},"relatedTo":{"ob_id":45832,"uuid":"189a3fead4894e90a5819ed59925a082","short_code":"acq","title":"Acquisition for the Aberdeen Grammar School met records","abstract":"Acquisition for the Aberdeen Grammar School met records"}},{"ob_id":14695,"platform":{"ob_id":45833,"uuid":"83177b63109446d3b516fd1619f48973","short_code":"plat","title":"Aberdeen Grammar School","abstract":"Aberdeen Grammar School meteorological station."},"instrument":{"ob_id":1211,"uuid":"71f065ddece242a8aa5d490692dda64b","short_code":"instr","title":"Thermometer","abstract":"A thermometer is an instrument used to measure temperature and can be applied to calculate humidity. Electrical Resistance Thermometers (ERT or PRT), liquid-in-glass thermometers, wet bulb thermometers and Climate Data Loggers (CDL) are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. 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