Instrument Platform Pair List

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        {
            "ob_id": 13379,
            "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": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13380,
            "platform": {
                "ob_id": 1816,
                "uuid": "a6fa2998eb0246b4a699a0753c74a2f3",
                "short_code": "plat",
                "title": "NOAA-15",
                "abstract": "NOAA polar orbiting satellite which was launched on May 13, 1998 and is still operational to this date."
            },
            "instrument": {
                "ob_id": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13381,
            "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": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13382,
            "platform": {
                "ob_id": 1831,
                "uuid": "4e8478da0c034af08d057e85dd4536be",
                "short_code": "plat",
                "title": "NOAA-17",
                "abstract": "NOAA polar orbiting satellite which was launched on June 24, 2002."
            },
            "instrument": {
                "ob_id": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13383,
            "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": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13384,
            "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": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13385,
            "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": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13386,
            "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": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13387,
            "platform": {
                "ob_id": 37847,
                "uuid": "3398c4ae04b34a85aa805a04a6eb5c97",
                "short_code": "plat",
                "title": "TIROS-N",
                "abstract": "Television and Infra-Red Observation Satellite - N .THe TIROS-N satellite is the first of the TIROS-N series. It is a weather satellite launched on 13 October 1978. It was designed to become operational during 2 years. Its mass is 734 kilograms. Its perigee to Earth is 829 kilometers. Its apogee is 845 kilometers away from Earth. Its inclination is 98.70°. It was managed by the U.S. National Oceanic and Atmospheric Administration (NOAA); designed and launched by NASA. The spacecraft was 3-axis stabilized.[2] TIROS-N was operated for 868 days until deactivated by NOAA on 27 February 1981."
            },
            "instrument": {
                "ob_id": 28103,
                "uuid": "5698692417e140a1a3d5e5564c43fafa",
                "short_code": "instr",
                "title": "High-resolution Infrared Radiation Sounder (HIRS)",
                "abstract": "HIRS is a 20-channel infrared scanning radiometer that performs operational atmospheric sounding.\r\n\r\nHIRS has 19 infrared channels (3.8-15 µm) and one visible channel. The swath width is 2160 km, with a 10 km resolution at nadir.\r\n\r\nIR calibration of the HIRS/4 is provided by programmed views of two radiometric targets mdash; the warm target, mounted on the instrument baseplate, and a view of deep space. Data from these views provides sensitivity calibrations for each channel at 256 second intervals, if commanded. Internally generated electronic signals provide calibration and stability monitoring of the detector amplifier and signal processing electronics.\r\n\r\nHIRS uses CO2 absorption bands for temperature sounding (CO2 is uniformly mixed in the atmosphere). HIRS also measures water vapour, ozone, N2O and cloud and surface temperatures."
            },
            "relatedTo": {
                "ob_id": 37848,
                "uuid": "8001c7a2ee3944e7a83bec2f937418ba",
                "short_code": "acq",
                "title": "FIDUCEO HIRS V2.0 data acquisition",
                "abstract": "FIDUCEO HIRS V1.0 data aquisition;  Core input data are L1B data files obtained from the NOAA CLASS archive. Spectral response functions are  obtained from NOAA NESDIS STAR PRT coefficients are obtained from CPIDS and also provided by NOAA"
            }
        },
        {
            "ob_id": 13388,
            "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": 37712,
                "uuid": "30a2d92d965f48ec973f88a6eb7568db",
                "short_code": "acq",
                "title": "Acquisition Process for: Sentinel 5P level 2 Suomi-NPP VIIRS cloud data.",
                "abstract": "The acquisition process for the collection of cloud data from the SNPP operational meteorological satellite (prototype of the Joint Polar Satellite System, JPSS). This satellite flies in loose formation with the Sentinel 5-Precursor satellite, with an observational gap of approximately 3.5 minutes, so that data from the two platforms may be co-located. The instruments of interest regarding collection of these data are the Sentinel 5P TROPOspheric Monitoring Instrument (TROPOMI) and the SNPP Visible Infra-red Imaging Radiometer Suite (VIIRS).\r\n\r\nThe data are from operational products from the Visible Infrared Imaging Radiometer Suite (VIIRS) \r\non board the Suomi NPP platform, and are used to derive information on cloud and scene homogeneity for TROPOMI scenes on board the Sentinel 5-Precursor satellite which flies in loose formation with SNPP."
            }
        },
        {
            "ob_id": 13389,
            "platform": {
                "ob_id": 8351,
                "uuid": "8be6f5d13183411c905984e976dcb0a9",
                "short_code": "plat",
                "title": "Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) Satellite",
                "abstract": "CALIPSO is a Franco-American satellite launched in 2006, with a specific purpose of advanced measurement of cloud and aerosols. The satellite is a part of the Afternoon Constellation (A-Train) under NASA-centred Earth Observation System (EOS). A-Train is a group of polar orbiting satellites following closely with each other for synergetic measurements. They pass through the  the equator around 13:00 and 01:00. CALIPSO is the first satellite that is able to provide data of vertical profiles of aerosol. These data is used for studying direct and indirect aerosol forcings. Vertical cloud profile is also required to predict precipitation and the strength of the circulation. The satellite contains Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP), Wide Field Camera (WFC) and Imaging Infrared Radiometer (IIR)."
            },
            "instrument": {
                "ob_id": 8352,
                "uuid": "7fd40aaed5aa488fad251a98b40357a5",
                "short_code": "instr",
                "title": "Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP)",
                "abstract": "The Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) is a two-wavelength polarisation-sensitive lidar which creates high-resolution vertical profiles of cloud and aerosol. The lidar uses 1064 nm to measure backscatter intesity, and two channels measuring orthogonally polarised components of the 532 nm backscatter signal."
            },
            "relatedTo": {
                "ob_id": 38107,
                "uuid": "3cc6897f1405409c8f4027e29f3bc780",
                "short_code": "acq",
                "title": "Acquisition for SASSO Australian Wildfires",
                "abstract": "Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP)  and Ozone Mapping and Profiler Suite -Limb Profiler (OMPS-LP) instruments satellite retrievals of the aerosol extinction coefficient and ozone anomalies"
            }
        },
        {
            "ob_id": 13390,
            "platform": {
                "ob_id": 38105,
                "uuid": "efa3ab056feb41a1b8871d19504b6864",
                "short_code": "plat",
                "title": "NOAA-20",
                "abstract": "NOAA (National Oceanic and Atmospheric Administration) polar orbiting satellite which was launched on 18 November 2017"
            },
            "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": 38107,
                "uuid": "3cc6897f1405409c8f4027e29f3bc780",
                "short_code": "acq",
                "title": "Acquisition for SASSO Australian Wildfires",
                "abstract": "Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP)  and Ozone Mapping and Profiler Suite -Limb Profiler (OMPS-LP) instruments satellite retrievals of the aerosol extinction coefficient and ozone anomalies"
            }
        },
        {
            "ob_id": 13391,
            "platform": {
                "ob_id": 38106,
                "uuid": "ac04b46420654575a70d929a4c9044ca",
                "short_code": "plat",
                "title": "Suomi National Polar-orbiting Partnership satellite",
                "abstract": "Suomi National Polar-orbiting Partnership (Suomi NPP) is a weather satellite operated by the United States National Oceanic and Atmospheric Administration (NOAA) and was launched in 2011"
            },
            "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": 38107,
                "uuid": "3cc6897f1405409c8f4027e29f3bc780",
                "short_code": "acq",
                "title": "Acquisition for SASSO Australian Wildfires",
                "abstract": "Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP)  and Ozone Mapping and Profiler Suite -Limb Profiler (OMPS-LP) instruments satellite retrievals of the aerosol extinction coefficient and ozone anomalies"
            }
        },
        {
            "ob_id": 13392,
            "platform": {
                "ob_id": 38122,
                "uuid": "5edb753f045d4156bbf343cd678acca2",
                "short_code": "plat",
                "title": "Ground Data Solutions helicopter",
                "abstract": "Instruments operated by Ground Data Solutions R&D Sdn Bhd from a helicopter"
            },
            "instrument": {
                "ob_id": 38115,
                "uuid": "d9fa5763305d49648c7ede9451aa8702",
                "short_code": "instr",
                "title": "Riegl LMS-Q560 ",
                "abstract": "Airborne LiDAR scanner"
            },
            "relatedTo": {
                "ob_id": 38114,
                "uuid": "12c4b096482d442784ea51171fef1267",
                "short_code": "acq",
                "title": "Acquisition for: Airborne LiDAR and RGB data from Sepilok Reserve and Danum Valley in Malaysia in 2020",
                "abstract": "Lidar and RGB Imagery operated by Ground Data Solutions R&D Sdn Bhd from a helicopter"
            }
        },
        {
            "ob_id": 13393,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 5799,
                "uuid": "c7e2a6a5c6204b09ac3a5c266752ca9c",
                "short_code": "instr",
                "title": "FAAM/BAE systems: Subset of FAAM core instruments measuring cloud physics data",
                "abstract": "Instrument.abstract: DETAILS NEEDED"
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                "uuid": "1951058427604cc29186c367e14ae93a",
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                "title": "FAAM Flight C297 Acquisition",
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                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
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                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
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                "short_code": "acq",
                "title": "FAAM Flight C298 Acquisition",
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                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
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                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
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                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
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                "short_code": "instr",
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                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
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                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
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                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
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                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
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            "instrument": {
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                "short_code": "instr",
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                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
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                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
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                "short_code": "instr",
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                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 38198,
                "uuid": "8bdb825108a14b839b87f155c34b8936",
                "short_code": "acq",
                "title": "FAAM Flight C312 Acquisition",
                "abstract": "FAAM Flight C312 Acquisition"
            }
        },
        {
            "ob_id": 13410,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 38202,
                "uuid": "85c8a61ed08742bdac8feb5559f45ed7",
                "short_code": "acq",
                "title": "FAAM Flight C313 Acquisition",
                "abstract": "FAAM Flight C313 Acquisition"
            }
        },
        {
            "ob_id": 13411,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 38206,
                "uuid": "69ca7b37c0fb419db1ce857ce9485c92",
                "short_code": "acq",
                "title": "FAAM Flight C314 Acquisition",
                "abstract": "FAAM Flight C314 Acquisition"
            }
        },
        {
            "ob_id": 13412,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 38210,
                "uuid": "a11205ba59b1462cb08901b7730e6478",
                "short_code": "acq",
                "title": "FAAM Flight C315 Acquisition",
                "abstract": "FAAM Flight C315 Acquisition"
            }
        },
        {
            "ob_id": 13413,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 38214,
                "uuid": "482b7c164bbd48698fd015dbfd10dde9",
                "short_code": "acq",
                "title": "FAAM Flight C296 Acquisition",
                "abstract": "FAAM Flight C296 Acquisition"
            }
        },
        {
            "ob_id": 13414,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 5799,
                "uuid": "c7e2a6a5c6204b09ac3a5c266752ca9c",
                "short_code": "instr",
                "title": "FAAM/BAE systems: Subset of FAAM core instruments measuring cloud physics data",
                "abstract": "Instrument.abstract: DETAILS NEEDED"
            },
            "relatedTo": {
                "ob_id": 38214,
                "uuid": "482b7c164bbd48698fd015dbfd10dde9",
                "short_code": "acq",
                "title": "FAAM Flight C296 Acquisition",
                "abstract": "FAAM Flight C296 Acquisition"
            }
        },
        {
            "ob_id": 13415,
            "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": 38288,
                "uuid": "09bf329dd0914affa88259c0b74585be",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing merged multi-mission gridded significant wave height from altimetery, v3 datasets",
                "abstract": "The altimeter data used in the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission gridded significant wave height from altimeter, v3 datasets come from multiple satellite missions spanning from 2002 to 2020 ( Envisat, CryoSat-2, Jason-1, Jason-2, Jason-3, SARAL, Sentinel-3A)."
            }
        },
        {
            "ob_id": 13416,
            "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": 38288,
                "uuid": "09bf329dd0914affa88259c0b74585be",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing merged multi-mission gridded significant wave height from altimetery, v3 datasets",
                "abstract": "The altimeter data used in the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission gridded significant wave height from altimeter, v3 datasets come from multiple satellite missions spanning from 2002 to 2020 ( Envisat, CryoSat-2, Jason-1, Jason-2, Jason-3, SARAL, Sentinel-3A)."
            }
        },
        {
            "ob_id": 13417,
            "platform": {
                "ob_id": 30018,
                "uuid": "dc9445f2ebc5410cb39df2984165c52b",
                "short_code": "plat",
                "title": "JASON-1",
                "abstract": "The JASON-1 (Joint Altimetery Satellite Oceanography Network - 1) satellite was the first flight of the JASON series of satellites, with a primary mission to study ocean topography and waves.   It flew between December 2001 and July 2013"
            },
            "instrument": {
                "ob_id": 30019,
                "uuid": "64d73638c9a14a3fad59d6ae8658fd37",
                "short_code": "instr",
                "title": "Poseidon-2",
                "abstract": "The Poseidon-2 satellite instrument was flown on the JASON-1 satellite.  It is a radar altimeter designed to study ocean topography, significant wave height and wind speed."
            },
            "relatedTo": {
                "ob_id": 38288,
                "uuid": "09bf329dd0914affa88259c0b74585be",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing merged multi-mission gridded significant wave height from altimetery, v3 datasets",
                "abstract": "The altimeter data used in the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission gridded significant wave height from altimeter, v3 datasets come from multiple satellite missions spanning from 2002 to 2020 ( Envisat, CryoSat-2, Jason-1, Jason-2, Jason-3, SARAL, Sentinel-3A)."
            }
        },
        {
            "ob_id": 13418,
            "platform": {
                "ob_id": 30020,
                "uuid": "154dafa0c39d47beb7b1b8f29efa237f",
                "short_code": "plat",
                "title": "JASON-2",
                "abstract": "The JASON-2 (Joint Altimetry Satellite Oceanography Network -2 ) satellite was flown to study ocean topography and waves.  It flew between June 2008 and October 2019"
            },
            "instrument": {
                "ob_id": 30021,
                "uuid": "57297602ceef42edb983796ce9089963",
                "short_code": "instr",
                "title": "Poseidon-3",
                "abstract": "The Poseidon-3 instrument was flown on the JASON-2 satellite.  It is a radar altimeter, designed to study ocean topography, significant wave height and wind speed."
            },
            "relatedTo": {
                "ob_id": 38288,
                "uuid": "09bf329dd0914affa88259c0b74585be",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing merged multi-mission gridded significant wave height from altimetery, v3 datasets",
                "abstract": "The altimeter data used in the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission gridded significant wave height from altimeter, v3 datasets come from multiple satellite missions spanning from 2002 to 2020 ( Envisat, CryoSat-2, Jason-1, Jason-2, Jason-3, SARAL, Sentinel-3A)."
            }
        },
        {
            "ob_id": 13419,
            "platform": {
                "ob_id": 30022,
                "uuid": "40826d62fbe6438494c543d9284e7c61",
                "short_code": "plat",
                "title": "JASON-3",
                "abstract": "The JASON-3 (Joint Altimetry Satellite Oceanography Network - 3 ) Satellite was launched on Jan 2016.  It primary mission is to study ocean topography and waves."
            },
            "instrument": {
                "ob_id": 30023,
                "uuid": "fcdd312219c4443985a9a1708867500e",
                "short_code": "instr",
                "title": "Poseidon-3B",
                "abstract": "The Poseidon-3B satellite instrument is flying on the JASON-3 satellite.   It is a radar altimeter, designed to study ocean topography, significant wave height and wind speed."
            },
            "relatedTo": {
                "ob_id": 38288,
                "uuid": "09bf329dd0914affa88259c0b74585be",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing merged multi-mission gridded significant wave height from altimetery, v3 datasets",
                "abstract": "The altimeter data used in the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission gridded significant wave height from altimeter, v3 datasets come from multiple satellite missions spanning from 2002 to 2020 ( Envisat, CryoSat-2, Jason-1, Jason-2, Jason-3, SARAL, Sentinel-3A)."
            }
        },
        {
            "ob_id": 13420,
            "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": 38288,
                "uuid": "09bf329dd0914affa88259c0b74585be",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing merged multi-mission gridded significant wave height from altimetery, v3 datasets",
                "abstract": "The altimeter data used in the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission gridded significant wave height from altimeter, v3 datasets come from multiple satellite missions spanning from 2002 to 2020 ( Envisat, CryoSat-2, Jason-1, Jason-2, Jason-3, SARAL, Sentinel-3A)."
            }
        },
        {
            "ob_id": 13421,
            "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": 19016,
                "uuid": "e63c04b01a6c4b66af13c4cf0c368cee",
                "short_code": "instr",
                "title": "Sentinel 3 Synthetic Aperture Radar Altimeter (SRAL)",
                "abstract": "Synthetic Aperture Radar Altimeter (SRAL) instrument on board the Sentinel 3 satellite."
            },
            "relatedTo": {
                "ob_id": 38288,
                "uuid": "09bf329dd0914affa88259c0b74585be",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing merged multi-mission gridded significant wave height from altimetery, v3 datasets",
                "abstract": "The altimeter data used in the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission gridded significant wave height from altimeter, v3 datasets come from multiple satellite missions spanning from 2002 to 2020 ( Envisat, CryoSat-2, Jason-1, Jason-2, Jason-3, SARAL, Sentinel-3A)."
            }
        },
        {
            "ob_id": 13422,
            "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": 38291,
                "uuid": "827c76ac3cf54a49a80f6d1fc024efb1",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing multi-mission along-track significant wave height (SWH) from SAR WV onboard Sentinel-1A & 1B, L2P product, version 3",
                "abstract": "The SAR Wave Mode data used in the Sea State CCI dataset v3 come from Sentinel-1 satellite missions spanning from 2015 to 2021 (Sentinel-1 A, Sentinel-1 B)"
            }
        },
        {
            "ob_id": 13429,
            "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": 38291,
                "uuid": "827c76ac3cf54a49a80f6d1fc024efb1",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing multi-mission along-track significant wave height (SWH) from SAR WV onboard Sentinel-1A & 1B, L2P product, version 3",
                "abstract": "The SAR Wave Mode data used in the Sea State CCI dataset v3 come from Sentinel-1 satellite missions spanning from 2015 to 2021 (Sentinel-1 A, Sentinel-1 B)"
            }
        },
        {
            "ob_id": 13430,
            "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": 19016,
                "uuid": "e63c04b01a6c4b66af13c4cf0c368cee",
                "short_code": "instr",
                "title": "Sentinel 3 Synthetic Aperture Radar Altimeter (SRAL)",
                "abstract": "Synthetic Aperture Radar Altimeter (SRAL) instrument on board the Sentinel 3 satellite."
            },
            "relatedTo": null
        },
        {
            "ob_id": 13431,
            "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": null
        },
        {
            "ob_id": 13432,
            "platform": {
                "ob_id": 30022,
                "uuid": "40826d62fbe6438494c543d9284e7c61",
                "short_code": "plat",
                "title": "JASON-3",
                "abstract": "The JASON-3 (Joint Altimetry Satellite Oceanography Network - 3 ) Satellite was launched on Jan 2016.  It primary mission is to study ocean topography and waves."
            },
            "instrument": {
                "ob_id": 30023,
                "uuid": "fcdd312219c4443985a9a1708867500e",
                "short_code": "instr",
                "title": "Poseidon-3B",
                "abstract": "The Poseidon-3B satellite instrument is flying on the JASON-3 satellite.   It is a radar altimeter, designed to study ocean topography, significant wave height and wind speed."
            },
            "relatedTo": null
        },
        {
            "ob_id": 13433,
            "platform": {
                "ob_id": 30020,
                "uuid": "154dafa0c39d47beb7b1b8f29efa237f",
                "short_code": "plat",
                "title": "JASON-2",
                "abstract": "The JASON-2 (Joint Altimetry Satellite Oceanography Network -2 ) satellite was flown to study ocean topography and waves.  It flew between June 2008 and October 2019"
            },
            "instrument": {
                "ob_id": 30021,
                "uuid": "57297602ceef42edb983796ce9089963",
                "short_code": "instr",
                "title": "Poseidon-3",
                "abstract": "The Poseidon-3 instrument was flown on the JASON-2 satellite.  It is a radar altimeter, designed to study ocean topography, significant wave height and wind speed."
            },
            "relatedTo": null
        },
        {
            "ob_id": 13434,
            "platform": {
                "ob_id": 30018,
                "uuid": "dc9445f2ebc5410cb39df2984165c52b",
                "short_code": "plat",
                "title": "JASON-1",
                "abstract": "The JASON-1 (Joint Altimetery Satellite Oceanography Network - 1) satellite was the first flight of the JASON series of satellites, with a primary mission to study ocean topography and waves.   It flew between December 2001 and July 2013"
            },
            "instrument": {
                "ob_id": 30019,
                "uuid": "64d73638c9a14a3fad59d6ae8658fd37",
                "short_code": "instr",
                "title": "Poseidon-2",
                "abstract": "The Poseidon-2 satellite instrument was flown on the JASON-1 satellite.  It is a radar altimeter designed to study ocean topography, significant wave height and wind speed."
            },
            "relatedTo": null
        },
        {
            "ob_id": 13435,
            "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": null
        },
        {
            "ob_id": 13436,
            "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": null
        },
        {
            "ob_id": 13437,
            "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": 38293,
                "uuid": "d1735b9c9282475aae88a322e22b405f",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing multi-mission along-track Integrated Sea State Parameters (ISSP) from SAR WV onboard Sentinel-1A & 1B, L2P product, version 3",
                "abstract": "The SAR Wave Mode data used in the Sea State CCI dataset v3 come from Sentinel-1 satellite missions spanning from 2014 to 2021 (Sentinel-1 A, Sentinel-1 B)"
            }
        },
        {
            "ob_id": 13438,
            "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": 38293,
                "uuid": "d1735b9c9282475aae88a322e22b405f",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci) : Global remote sensing multi-mission along-track Integrated Sea State Parameters (ISSP) from SAR WV onboard Sentinel-1A & 1B, L2P product, version 3",
                "abstract": "The SAR Wave Mode data used in the Sea State CCI dataset v3 come from Sentinel-1 satellite missions spanning from 2014 to 2021 (Sentinel-1 A, Sentinel-1 B)"
            }
        },
        {
            "ob_id": 13441,
            "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": 38294,
                "uuid": "000f3d19747c4672a6466a5432812cdf",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci): Global remote sensing multi-mission along-track Integrated Sea State Parameters (ISSP) from SAR Wave Mode onboard ENVISAT, L2P product, version 3",
                "abstract": "The SAR Wave Mode data used in the Sea State CCI SAR WV onboard ENVISAT Level 2P (L2P) ISSP v3 dataset come from the ENVISAT satellite mission spanning from 2002 to 2012."
            }
        },
        {
            "ob_id": 13442,
            "platform": {
                "ob_id": 38305,
                "uuid": "1e12f24a87b04da6ab7c974ccde15a38",
                "short_code": "plat",
                "title": "GEOSCOPE Network",
                "abstract": "The GEOSCOPE Network is a global seismological network.  For more information see http://geoscope.ipgp.fr/index.php/en/geoscope-network/"
            },
            "instrument": {
                "ob_id": 38304,
                "uuid": "8d05c8f23a6d4d519c5a323151bf6a55",
                "short_code": "instr",
                "title": "Seismometer",
                "abstract": "-"
            },
            "relatedTo": {
                "ob_id": 38308,
                "uuid": "79165b664ddc4c9cb44c9aed415e34d1",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci): Seismic spectrograms from broadband seismometers, release version 3",
                "abstract": "The data in this dataset are taken from all available land-based stations from 3 global seismic networks\r\n(Geoscope, IRIS USGS and IRIS IDA) from 1988 to 2019"
            }
        },
        {
            "ob_id": 13443,
            "platform": {
                "ob_id": 38306,
                "uuid": "aebc94d0389d4b06aa5543f576a3e35c",
                "short_code": "plat",
                "title": "Project IDA",
                "abstract": "Project IDA (International Deployment of Accelerometers) is a global network of broadband seismometers.  For more information see https://ida.ucsd.edu/"
            },
            "instrument": {
                "ob_id": 38304,
                "uuid": "8d05c8f23a6d4d519c5a323151bf6a55",
                "short_code": "instr",
                "title": "Seismometer",
                "abstract": "-"
            },
            "relatedTo": {
                "ob_id": 38308,
                "uuid": "79165b664ddc4c9cb44c9aed415e34d1",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci): Seismic spectrograms from broadband seismometers, release version 3",
                "abstract": "The data in this dataset are taken from all available land-based stations from 3 global seismic networks\r\n(Geoscope, IRIS USGS and IRIS IDA) from 1988 to 2019"
            }
        },
        {
            "ob_id": 13444,
            "platform": {
                "ob_id": 38307,
                "uuid": "b695a03e6d784f2d8c6e960c5f98cc4c",
                "short_code": "plat",
                "title": "GSN - Global Seismographic Network",
                "abstract": "For information on the Global Seismographic Network (GSN) see https://www.usgs.gov/programs/earthquake-hazards/gsn-global-seismographic-network"
            },
            "instrument": {
                "ob_id": 38304,
                "uuid": "8d05c8f23a6d4d519c5a323151bf6a55",
                "short_code": "instr",
                "title": "Seismometer",
                "abstract": "-"
            },
            "relatedTo": {
                "ob_id": 38308,
                "uuid": "79165b664ddc4c9cb44c9aed415e34d1",
                "short_code": "acq",
                "title": "Acquisition for the ESA Sea State Climate Change Initiative (Sea_State_cci): Seismic spectrograms from broadband seismometers, release version 3",
                "abstract": "The data in this dataset are taken from all available land-based stations from 3 global seismic networks\r\n(Geoscope, IRIS USGS and IRIS IDA) from 1988 to 2019"
            }
        },
        {
            "ob_id": 13445,
            "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": 38321,
                "uuid": "abf32dcb73fa4d0792107198a463c246",
                "short_code": "acq",
                "title": "Acquisition Process for: Sentinel 3B Ocean and Land Colour Instrument (OLCI)",
                "abstract": "The acquisition process for the collection of raw data from the European Space Agency (ESA) Sentinel 3B Ocean and Land Colour Instrument (OLCI)."
            }
        },
        {
            "ob_id": 13446,
            "platform": {
                "ob_id": 26748,
                "uuid": "61c42dd67918447d80ccf09aaec0ae0f",
                "short_code": "plat",
                "title": "Heathfield Tower, East Sussex",
                "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network."
            },
            "instrument": {
                "ob_id": 13194,
                "uuid": "a831cbf570494f6fb022c8f6c7d47b8f",
                "short_code": "instr",
                "title": "Weybourne Atmospheric Observatory: Siemens Ultramet 6E & Sable Systems Oxzilla II",
                "abstract": "A single gas handling system is used to measure CO2 and O2 concurrently in a single contiguous system including both analysers. Air is sampled from an aspirated inlet on the 10 m tower at Weybourne using a diaphragm pump. A two stage drying system is employed and a pressure control interface is used to match the flows of both sample and reference flows upstream of the analyser. All calibrations and outside air measurements are performed against a reference flow of dry cylinder air to improve sensitivity. The CO2 analyser is a Siemens Ultramat 6E non-dispersive infra red (ND-IR) CO2 analyser. After passing through the Siemens CO2 analyser the airstream is analysed for O2 content using an Oxzilla II analyser from Sable Systems that utilises fuel cell technology. The data for both species is reported on the same timestamps."
            },
            "relatedTo": {
                "ob_id": 38340,
                "uuid": "d97d9cd6e1d847b283ef00115aad896b",
                "short_code": "acq",
                "title": "Acquisition for: Continuous measurements of atmospheric carbon dioxide (CO2) and oxygen (O2) at Heathfield Tower 2021-2022",
                "abstract": "Continuous measurements of atmospheric carbon dioxide (CO2) and oxygen (O2) at Heathfield Tower 2021-2022"
            }
        },
        {
            "ob_id": 13447,
            "platform": {
                "ob_id": 14189,
                "uuid": "add3090223474a4382f6ba882f37925d",
                "short_code": "plat",
                "title": "CEH Bush Estate",
                "abstract": "Centre for Ecology & Hydrology Estate 55.862N 3.206W\r\nEaster Bush is located in South East Scotland, 10 km south of Edinburgh (03°02′\r\nW, 55°52′N, 190 m above sea level). The fields have been under permanent grassland managemen\r\nt for more than 20 years with a species composition of >99% perennial ryegrass (Lolium peren\r\nne) and < 0.5% clover (Trifolium repens). The soil type is an imperfectly drained Eutric Cam\r\nbisol (FAO classification) with a pH of 5.1 (in H2O), a clay fraction of 20–26% (Clayey Loam\r\n to Sandy Loam) and a soil organic carbon content of 4% (0–10 cm depth). The grassland is grazed by cows, ewes and lambs at different stocking densities and has been cut for silage in\r\nsome years. The instrumentation sits on the boundary between two fields, labelled north and\r\nsouth, although the fence line runs down from the NW to SE.)The field site was established in 2001 for the EU GRAMINAE project (GRAMINAE: A new Initiative to Examine\r\nBiosphere-Atmosphere Interactions of Ammonia\r\nwith Grasslands across Europe which looked at\r\nammonia exchange and has hosted many projects since then, with a of core meteorological sensors"
            },
            "instrument": {
                "ob_id": 38732,
                "uuid": "c64df274e47f4604a013fc9395548cb0",
                "short_code": "instr",
                "title": "Easter Bush Meteorological Instruments",
                "abstract": "Compilation of main sonic anemometer (Gill Windmaster), secondary sonic (Metek USA-1) and wind vane sensors (Vector Instruments)"
            },
            "relatedTo": {
                "ob_id": 38734,
                "uuid": "482dcb85469b456d849c1f74240dfc02",
                "short_code": "acq",
                "title": "Acquisition for Easter Bush field site Meteorological measurements",
                "abstract": "Acquisition for Easter Bush field site Meteorological measurements"
            }
        },
        {
            "ob_id": 13448,
            "platform": {
                "ob_id": 38832,
                "uuid": "4d163f0ed0404414b09699fcf17daf43",
                "short_code": "plat",
                "title": "Météo-France field site: Melun, France",
                "abstract": "Melun, France field site operated by Météo-France.\n\nSite WIGOS id: 0-20000-0-07153. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 07153."
            },
            "instrument": {
                "ob_id": 35075,
                "uuid": "841db90416cb4ce7b92c5238587e9a69",
                "short_code": "instr",
                "title": "Météo-France: Vaisala CL31 instrument.",
                "abstract": "Vaisala CL31 instrument operated by Météo-France providing cloud base height and aerosol profile data"
            },
            "relatedTo": {
                "ob_id": 38831,
                "uuid": "be5ea708ec19437ba975e231a01df7da",
                "short_code": "acq",
                "title": "Météo-France: vaisala-cl31 instrument deployed at Melun",
                "abstract": "vaisala-cl31 instrument instrument deployed at Melun operated by Météo-France providing cloud base height and aerosol profile data."
            }
        },
        {
            "ob_id": 13449,
            "platform": {
                "ob_id": 38836,
                "uuid": "d8999a210c084e139223e720b468374a",
                "short_code": "plat",
                "title": "Météo-France field site: Pontoise, France",
                "abstract": "Pontoise, France field site operated by Météo-France.\n\nSite WIGOS id: 0-20000-0-07053. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool.\n\nSite WMO site id: 07053."
            },
            "instrument": {
                "ob_id": 35075,
                "uuid": "841db90416cb4ce7b92c5238587e9a69",
                "short_code": "instr",
                "title": "Météo-France: Vaisala CL31 instrument.",
                "abstract": "Vaisala CL31 instrument operated by Météo-France providing cloud base height and aerosol profile data"
            },
            "relatedTo": {
                "ob_id": 38835,
                "uuid": "27ffb844819d4f889c26b1da944647d9",
                "short_code": "acq",
                "title": "Météo-France: vaisala-cl31 instrument deployed at Pontoise",
                "abstract": "vaisala-cl31 instrument instrument deployed at Pontoise operated by Météo-France providing cloud base height and aerosol profile data."
            }
        },
        {
            "ob_id": 13450,
            "platform": {
                "ob_id": 39194,
                "uuid": "3034e4ba4520404eb59b472e53014ade",
                "short_code": "plat",
                "title": "Wytham Woods TLS leaf off winter 2015/2016",
                "abstract": "TLS data were collected on a 20 m x 20 m grid where at each position the scanner captured data in an upright and tilted position. The scanner was set to an angular step of 0.04 degrees.  In between each scan position, a set of retro-reflective targets were positioned to be used as tie-points between scans. \r\n\r\nThe local origin coordinate (0,0) was measured with a differential GPS and located at Lat 51.7750579, Lon-1.33904729\r\n    -local coordinate lower left: (-0.07, -0.10)\r\n    -local coordinate lower right: (197.78, 8.52)\r\n    -local coordinate top left: (-1.37, 305.89)\r\n    -local coordinate top right: (200.99, 308.38)"
            },
            "instrument": {
                "ob_id": 27223,
                "uuid": "d80d5c2b6b40455c82707bc53c200f2a",
                "short_code": "instr",
                "title": "UCL  RIEGL VZ-400 Terrestrial Laser Scaner",
                "abstract": "Instrument Serial: S9999808\r\nThe RIEGL  VZ-400  V-Line®  3D  Terrestrial  Laser  Scanner  provides  high  speed,  non-contact  data  acquisition  using  a  narrow  infrared  laser  beam and a fast scanning mechanism. High-accuracy laser ranging is  based  upon  RIEGL’s  unique  echo  digitization  and  online  waveform  processing,  which  enables  superior  measurement  performance  even  during adverse environmental conditions and provides multiple return capability.The RIEGL VZ-400 is a very compact and lightweight surveying instrument, mountable in any orientation and even able to perform in limited space conditions.Modes of Operation:•  stand-alone data acquisition without the need of a computer•  basic configuration and control via built-in user interface•  remote  operation  via  RiSCAN  PRO  on  a  notebook,  connectedeither via LAN interface or integrated WLAN•  well-documented command interface for smooth integration into mobile laser scanning systems•  interfacing to post processing softwareUser Interfaces:•   integrated   Human-Machine   Interface   (HMI)   for   stand-alone   operation without a computer•  high-resolution 3,5” TFT color display, 320 x 240 pixel, scratch resistantglass with anti-reflection coating and multi-lingual menu•  water  and  dirt  resistant  key  pad  with  large  buttons  for  instrument  control•  speaker for audible status and operation communications"
            },
            "relatedTo": {
                "ob_id": 39192,
                "uuid": "dbbd8c317d0849b4a032ce8d7ba5995a",
                "short_code": "acq",
                "title": "Wytham Woods -  Leaf off data collection Winter 2015/16",
                "abstract": "TLS data were collected on a 20 m x 20 m grid where at each position the scanner captured data in an upright and tilted position. The scanner was set to an angular step of 0.04 degrees.  In between each scan position, a set of retro-reflective targets were positioned to be used as tie-points between scans. For more information on TLS acquisition refer to Calders et al. Scan data were coregistered using RiSCAN Pro, the 4x4 rotation transformation matrices to transform the point cloud data into a common reference coordinate system can be found in the \"matrix\" directory\r\n\r\nThe local origin coordinate (0,0) was measured with a differential GPS and located at Lat 51.7750579, Lon-1.33904729\r\n    -local coordinate lower left: (-0.07, -0.10)\r\n    -local coordinate lower right: (197.78, 8.52)\r\n    -local coordinate top left: (-1.37, 305.89)\r\n    -local coordinate top right: (200.99, 308.38)"
            }
        },
        {
            "ob_id": 13451,
            "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": 8063,
                "uuid": "af0f2ee04eee4d81aadcb6470b503a4e",
                "short_code": "instr",
                "title": "Along Track Scanning Radiometer (ATSR-1)",
                "abstract": "ATSR-1 was launched as part of the payload of ESA's ERS-1 satellite on 17th July 1991, and was the test-bed for the along track scanning concept.\r\n\r\nEach ATSR instrument has been designed for exceptional sensitivity and stability of calibration, which are achieved through the incorporation of several innovative features in the instrument design. This design has, among other things, enabled the accurate measurement of sea surface temperature to an accuracy of +/- 0.3K.\r\n\r\nThe ATSR1 instrument has four channels at wavelengths of 1.6um (visible) and three thermal bands at 3.7um, 11um, and 12um.\r\n\r\nThe ATSR instruments are novel in that they incorporate 2 views into each swath scan.  Satellite measurements of the temperature of the surface of the Earth are inevitably affected by the passage of the radiation through the atmosphere. The dual view design of ATSR makes it possible to estimate and correct for these atmospheric effects. The two views result from the instrument's conical scanning mechanism. Each scan takes readings from the nadir position and then sweeps round to take measurements from a point about 900Km along the satellite's track. A few minutes after acquiring the forward view, the satellite passes over the same spot and takes readings for the nadir view. As the two views of the same scene are taken through different atmospheric path lengths, it is possible to calculate a correction for the effect of atmospheric absorption.\r\n\r\nThe ATSR instruments are also self calibrating.  Rather than relying on pre launch calibration, the ATSR instrument has two on-board black bodies at known temperatures. Radiation from these is measured during each scan and used to provide a continuous re-calibration of the instrument. This makes it possible to determine single channel equivalent temperatures correct to +/- 0.05K."
            },
            "relatedTo": {
                "ob_id": 39199,
                "uuid": "77d1d5c7f73d4683a451a9380ea31ffb",
                "short_code": "acq",
                "title": "Acquisition process for ERS1 ATSR1 UBT",
                "abstract": "ATSR1 Ungridded Brightness Temperature collected 1991 to 1996"
            }
        },
        {
            "ob_id": 13452,
            "platform": {
                "ob_id": 32912,
                "uuid": "b1b0a524266e4b6c9d468259847d60f9",
                "short_code": "plat",
                "title": "Research Vessel Polarstern",
                "abstract": "RV Polarstern (meaning pole star) is a German research icebreaker of the Alfred Wegener Institute for Polar and Marine Research (AWI) in  Bremerhaven, Germany. Polarstern was built by Howaldtswerke-Deutsche Werft in Kiel and Nobiskrug in Rendsburg, was commissioned in 1982, and is mainly used for research in the Arctic and Antarctica. The ship has a length of 118 metres (387 feet) and is a double-hulled icebreaker."
            },
            "instrument": {
                "ob_id": 25998,
                "uuid": "d35f8ddefa8442d9b63883f05aa40057",
                "short_code": "instr",
                "title": "NCAS AMF: Halo Doppler Lidar unit 1",
                "abstract": "NCAS AMF: Halo Doppler Lidar unit 1"
            },
            "relatedTo": {
                "ob_id": 39228,
                "uuid": "251546888b054482b3fa16fd0c5db26a",
                "short_code": "acq",
                "title": "Acquisition for: Multidisciplinary drifting Observatory for Study of Arctic Climate (MOSAiC): Wind profiles from HALO Doppler lidar",
                "abstract": "Multidisciplinary drifting Observatory for Study of Arctic Climate (MOSAiC) project: Wind profiles from HALO Doppler lidar on board the German research vessel Polarstern."
            }
        },
        {
            "ob_id": 13453,
            "platform": {
                "ob_id": 39782,
                "uuid": "7e723f4be1394c1280ca930b66f4e770",
                "short_code": "plat",
                "title": "Kakioka Magnetic Observatory, Japan",
                "abstract": "The Kakioka Magnetic Observatory is located in Ishioka-shi, Ibaraki-ken, Japan.  It is  27m above sea level. \r\n\r\n Kakioka is a small town located in Ibaraki Prefecture in eastern Japan, east of Mt. Tsukuba.\r\nTwo Boltek electric field  mills (higher and lower sensitivity) operated by the Japan Meteorological Agency   provide atmospheric electric field data to GLOCAEM,\r\n\r\nImages by an all-sky camera (10 min. Time) and a wildlife surveillance camera (Motion detection) are also available at this site."
            },
            "instrument": {
                "ob_id": 39783,
                "uuid": "8b64745d720c48ad8c8a20a24d94e0c8",
                "short_code": "instr",
                "title": "Kakioka - atmospheric electric potential gradient",
                "abstract": "Potential gradient is measured using a Boltek EFM-100.  It is mounted on a 0.6 m metal pole.\r\nThe provided data was calibrated using long-term observation of water dropper data (Nagamachi et al, Geosci. Data J., 2021). The resolution of the sensitive data provided through GLOCAEM is 1.9 V/m and the measurement range is from -3.8 kV/m to +3.8 kV/m. GPS-synchronized data with higher resolution (0.19 V/m) and with high sampling (10 Hz), all-sky camera images (10 min. sampling), animal camera images (motion detection) and are also available through on-demand request.\r\n\r\nThe instrument is located at 27 m a.s.l.\r\nMeasurement frequency is 1Hz\r\n\r\nThis is used in the  Glocaem potential gradient network"
            },
            "relatedTo": {
                "ob_id": 39231,
                "uuid": "5201abb5dd85431cb701e4740da4e127",
                "short_code": "acq",
                "title": "GLOCaeM potential gradient  Kakioka Magnetic Observatory, Japan",
                "abstract": "Measurements of atmospheric electric potential gradient made at Kakioka Magnetic Observatory, Japan"
            }
        },
        {
            "ob_id": 13455,
            "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": 8097,
                "uuid": "28871807a07f4cadb11bceaa4a4cc568",
                "short_code": "instr",
                "title": "ERS2 ATSR2",
                "abstract": "ATSR-2 was launched as part of the payload of ESA's ERS-1 satellite on 21st April 1995, and was the second instrument in the ATSR series including the along track scanning concept.\r\n\r\nEach ATSR instrument has been designed for exceptional sensitivity and stability of calibration, which are achieved through the incorporation of several innovative features in the instrument design. This design has, among other things, enabled the accurate measurement of sea surface temperature to an accuracy of +/- 0.3K.\r\n\r\nThe ATSR2 is equipped with infrared channels at 1.6um, 3.7um, 10.8 um and 12um to match its predecessor ATSR1 in providing brightness temperatures for measurement of sea-surface temperature and cloud-top temperature. In addition, visible channels at 0.55, 0.67 and 0.87 um for vegatation studies and improved cloud detection were also included on ATSR2. The ATSR2 failed in 2008."
            },
            "relatedTo": {
                "ob_id": 39285,
                "uuid": "055777dc98c641bd84971f27a3ac3031",
                "short_code": "acq",
                "title": "Acquisition process for ERS2 ATSR2 UBT",
                "abstract": "ATSR2 Ungridded Brightness Temperature collected 1995 to 2008"
            }
        },
        {
            "ob_id": 13456,
            "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": 39315,
                "uuid": "85a81af3fa474c7bb11d45843c1eeb9f",
                "short_code": "acq",
                "title": "Acquisition process for the Globalbedo BRDF products",
                "abstract": "Acquisition of observational data for the Globalbedo BRDF processing."
            }
        },
        {
            "ob_id": 13457,
            "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": 39315,
                "uuid": "85a81af3fa474c7bb11d45843c1eeb9f",
                "short_code": "acq",
                "title": "Acquisition process for the Globalbedo BRDF products",
                "abstract": "Acquisition of observational data for the Globalbedo BRDF processing."
            }
        },
        {
            "ob_id": 13458,
            "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": 39315,
                "uuid": "85a81af3fa474c7bb11d45843c1eeb9f",
                "short_code": "acq",
                "title": "Acquisition process for the Globalbedo BRDF products",
                "abstract": "Acquisition of observational data for the Globalbedo BRDF processing."
            }
        },
        {
            "ob_id": 13459,
            "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": 39315,
                "uuid": "85a81af3fa474c7bb11d45843c1eeb9f",
                "short_code": "acq",
                "title": "Acquisition process for the Globalbedo BRDF products",
                "abstract": "Acquisition of observational data for the Globalbedo BRDF processing."
            }
        },
        {
            "ob_id": 13460,
            "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": 8063,
                "uuid": "af0f2ee04eee4d81aadcb6470b503a4e",
                "short_code": "instr",
                "title": "Along Track Scanning Radiometer (ATSR-1)",
                "abstract": "ATSR-1 was launched as part of the payload of ESA's ERS-1 satellite on 17th July 1991, and was the test-bed for the along track scanning concept.\r\n\r\nEach ATSR instrument has been designed for exceptional sensitivity and stability of calibration, which are achieved through the incorporation of several innovative features in the instrument design. This design has, among other things, enabled the accurate measurement of sea surface temperature to an accuracy of +/- 0.3K.\r\n\r\nThe ATSR1 instrument has four channels at wavelengths of 1.6um (visible) and three thermal bands at 3.7um, 11um, and 12um.\r\n\r\nThe ATSR instruments are novel in that they incorporate 2 views into each swath scan.  Satellite measurements of the temperature of the surface of the Earth are inevitably affected by the passage of the radiation through the atmosphere. The dual view design of ATSR makes it possible to estimate and correct for these atmospheric effects. The two views result from the instrument's conical scanning mechanism. Each scan takes readings from the nadir position and then sweeps round to take measurements from a point about 900Km along the satellite's track. A few minutes after acquiring the forward view, the satellite passes over the same spot and takes readings for the nadir view. As the two views of the same scene are taken through different atmospheric path lengths, it is possible to calculate a correction for the effect of atmospheric absorption.\r\n\r\nThe ATSR instruments are also self calibrating.  Rather than relying on pre launch calibration, the ATSR instrument has two on-board black bodies at known temperatures. Radiation from these is measured during each scan and used to provide a continuous re-calibration of the instrument. This makes it possible to determine single channel equivalent temperatures correct to +/- 0.05K."
            },
            "relatedTo": {
                "ob_id": 39315,
                "uuid": "85a81af3fa474c7bb11d45843c1eeb9f",
                "short_code": "acq",
                "title": "Acquisition process for the Globalbedo BRDF products",
                "abstract": "Acquisition of observational data for the Globalbedo BRDF processing."
            }
        },
        {
            "ob_id": 13461,
            "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": 39315,
                "uuid": "85a81af3fa474c7bb11d45843c1eeb9f",
                "short_code": "acq",
                "title": "Acquisition process for the Globalbedo BRDF products",
                "abstract": "Acquisition of observational data for the Globalbedo BRDF processing."
            }
        },
        {
            "ob_id": 13462,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39393,
                "uuid": "61b16ec0a8ac4b5891c931091cdcb75d",
                "short_code": "acq",
                "title": "FAAM Flight C316 Acquisition",
                "abstract": "FAAM Flight C316 Acquisition"
            }
        },
        {
            "ob_id": 13463,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 5799,
                "uuid": "c7e2a6a5c6204b09ac3a5c266752ca9c",
                "short_code": "instr",
                "title": "FAAM/BAE systems: Subset of FAAM core instruments measuring cloud physics data",
                "abstract": "Instrument.abstract: DETAILS NEEDED"
            },
            "relatedTo": {
                "ob_id": 39393,
                "uuid": "61b16ec0a8ac4b5891c931091cdcb75d",
                "short_code": "acq",
                "title": "FAAM Flight C316 Acquisition",
                "abstract": "FAAM Flight C316 Acquisition"
            }
        },
        {
            "ob_id": 13464,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39397,
                "uuid": "40c164e68028469394ad8c61dd693449",
                "short_code": "acq",
                "title": "FAAM Flight C317 Acquisition",
                "abstract": "FAAM Flight C317 Acquisition"
            }
        },
        {
            "ob_id": 13465,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39401,
                "uuid": "bfbc0600c09944509f0c7b59799ddd8a",
                "short_code": "acq",
                "title": "FAAM Flight C318 Acquisition",
                "abstract": "FAAM Flight C318 Acquisition"
            }
        },
        {
            "ob_id": 13466,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39405,
                "uuid": "b73340d039414d22b11100dcfde36151",
                "short_code": "acq",
                "title": "FAAM Flight C319 Acquisition",
                "abstract": "FAAM Flight C319 Acquisition"
            }
        },
        {
            "ob_id": 13467,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39409,
                "uuid": "34d504acb02441219a7541feeafeba9a",
                "short_code": "acq",
                "title": "FAAM Flight C320 Acquisition",
                "abstract": "FAAM Flight C320 Acquisition"
            }
        },
        {
            "ob_id": 13468,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39413,
                "uuid": "085d4b2eaa0441adb5b0e24597794183",
                "short_code": "acq",
                "title": "FAAM Flight C321 Acquisition",
                "abstract": "FAAM Flight C321 Acquisition"
            }
        },
        {
            "ob_id": 13469,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39417,
                "uuid": "4d073531aed84fcaa3aaccceed024e43",
                "short_code": "acq",
                "title": "FAAM Flight C322 Acquisition",
                "abstract": "FAAM Flight C322 Acquisition"
            }
        },
        {
            "ob_id": 13470,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39421,
                "uuid": "e3b7045524e34444b3625dd9e1210fa5",
                "short_code": "acq",
                "title": "FAAM Flight C323 Acquisition",
                "abstract": "FAAM Flight C323 Acquisition"
            }
        },
        {
            "ob_id": 13471,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39425,
                "uuid": "8b0db81b31024312a3838715903caf54",
                "short_code": "acq",
                "title": "FAAM Flight C324 Acquisition",
                "abstract": "FAAM Flight C324 Acquisition"
            }
        },
        {
            "ob_id": 13472,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39429,
                "uuid": "d038dd63494f4c2caf665cf681b26fc7",
                "short_code": "acq",
                "title": "FAAM Flight C325 Acquisition",
                "abstract": "FAAM Flight C325 Acquisition"
            }
        },
        {
            "ob_id": 13473,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39433,
                "uuid": "c6b2bcd1c96d49cfba01e053093a50a4",
                "short_code": "acq",
                "title": "FAAM Flight C326 Acquisition",
                "abstract": "FAAM Flight C326 Acquisition"
            }
        },
        {
            "ob_id": 13474,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39437,
                "uuid": "65c234a696264479bfe36f0cd7ef51bb",
                "short_code": "acq",
                "title": "FAAM Flight C327 Acquisition",
                "abstract": "FAAM Flight C327 Acquisition"
            }
        },
        {
            "ob_id": 13475,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39441,
                "uuid": "3037297039fe48be922f744901fa8e69",
                "short_code": "acq",
                "title": "FAAM Flight C328 Acquisition",
                "abstract": "FAAM Flight C328 Acquisition"
            }
        },
        {
            "ob_id": 13476,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39449,
                "uuid": "62471d096e8d49289acf1d8abaacea09",
                "short_code": "acq",
                "title": "FAAM Flight C330 Acquisition",
                "abstract": "FAAM Flight C330 Acquisition"
            }
        },
        {
            "ob_id": 13477,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39453,
                "uuid": "f4e4f48b255441bba17e0d3b39a2ba5c",
                "short_code": "acq",
                "title": "FAAM Flight C332 Acquisition",
                "abstract": "FAAM Flight C332 Acquisition"
            }
        },
        {
            "ob_id": 13478,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39457,
                "uuid": "37a3bd26dfd44ec7ac16be4455724f13",
                "short_code": "acq",
                "title": "FAAM Flight C331 Acquisition",
                "abstract": "FAAM Flight C331 Acquisition"
            }
        },
        {
            "ob_id": 13479,
            "platform": {
                "ob_id": 51,
                "uuid": "dda4596d5d374564acf8c79b7a119127",
                "short_code": "plat",
                "title": "FAAM BAe-146-301 Large Atmospheric Research Aircraft G-LUXE",
                "abstract": "FAAM is the result of a collaboration between the Met Office(TM) and the Natural Environment Research Council (NERC) and has been established as part of the National Centre for Atmospheric Science (NCAS) to provide an aircraft measurement platform for use by all the UK atmospheric research community on campaigns throughout the world. The modified BAE 146 aircraft (jet type) is owned by BAE Systems and operated for them by Directflight. The Home Base is at Cranfield University, Bedfordshire.\r\n\r\nThe FAAM BAE 146 aircraft allows for in-situ measurements taken by core and non-core instruments onboard the aircraft. The in-situ measurements will then be transported to the research organisations' respective laboratory for analysis"
            },
            "instrument": {
                "ob_id": 61,
                "uuid": "306ac6a158514192baf813b4b8b46be7",
                "short_code": "instr",
                "title": "FAAM/BAE (Facility for Airborne Atmospheric Measurements/British AErospace) systems: Set of FAAM core instruments",
                "abstract": "Core instruments are provided and can be operated by FAAM. Data will be made available routinely at BADC. Some core instruments may not be operated on all flights. The standard core instrument data may, in some cases, be enhanced (e.g. provided at higher frequency or with greater accuracy) by collaboration with another group."
            },
            "relatedTo": {
                "ob_id": 39461,
                "uuid": "6038469d7cb5409dab7540d4ed712dc0",
                "short_code": "acq",
                "title": "FAAM Flight C333 Acquisition",
                "abstract": "FAAM Flight C333 Acquisition"
            }
        },
        {
            "ob_id": 13480,
            "platform": {
                "ob_id": 39467,
                "uuid": "a29500b101bc43f2988b58c88512c469",
                "short_code": "plat",
                "title": "Manchester Air Quality Supersite (MAQS)",
                "abstract": "An urban air quality supersites in Manchester, UK equipped with a suite of permanent and visiting instruments to deliver comprehensive, continuous and long-term measurements of atmospheric composition.\r\n\r\nThe site has a WIGOS id: 0-20008-0-MCR. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool."
            },
            "instrument": {
                "ob_id": 37965,
                "uuid": "99eb71a108be44948181c1d55e054423",
                "short_code": "instr",
                "title": "MAQS: Los Gatos Research Multi-Carbon Analyzer Instrument",
                "abstract": "Manchester Air Quality Supersite (MAQS) Los Gatos Research Multi-Carbon Analyzer Instrument is ideal for high precision atmospheric monitoring of Methane, Carbon Monoxide, Carbon Dioxide and Water Abundance."
            },
            "relatedTo": {
                "ob_id": 37964,
                "uuid": "57d5ab9e544c4c80be316d6eee3429df",
                "short_code": "acq",
                "title": "Acquisition for: Methane, Carbon Monoxide, Carbon Dioxide and Water Abundance Measurements from Los Gatos Research Ammonia Analyzer Instrument at Manchester Air Quality Site 2019-22",
                "abstract": "Acquisition for: Methane, Carbon Monoxide, Carbon Dioxide and Water Abundance Measurements from Los Gatos Research Ammonia Analyzer Instrument at Manchester Air Quality Site 2019-22"
            }
        },
        {
            "ob_id": 13481,
            "platform": {
                "ob_id": 39473,
                "uuid": "ea5c7e6e28c94321b83799cb80ee3f25",
                "short_code": "plat",
                "title": "Laboratoire Inter-Universitaire Des Systèmes Atmosphériques (LISA/IPSL) field site: Lisa-P7, France",
                "abstract": "Lisa-P7, France field site operated by Laboratoire Inter-Universitaire Des Systèmes Atmosphériques (LISA/IPSL).\n\nSite WIGOS id: 0-250-1001-75113006. See online documentation for link to station details in the Observing Systems Capability Analysis and Review (OSCAR) Tool."
            },
            "instrument": {
                "ob_id": 39472,
                "uuid": "9068dfc9c3114c46b31425b42f191044",
                "short_code": "instr",
                "title": "Laboratoire Inter-Universitaire Des Systèmes Atmosphériques (LISA/IPSL): vaisala-cl31 instrument.",
                "abstract": "Vaisala-cl31 instrument operated by Laboratoire Inter-Universitaire Des Systèmes Atmosphériques (LISA/IPSL) providing cloud base height and aerosol profile data."
            },
            "relatedTo": {
                "ob_id": 39471,
                "uuid": "23e49539a64b478481b06471614abd9d",
                "short_code": "acq",
                "title": "Laboratoire Inter-Universitaire Des Systèmes Atmosphériques (LISA/IPSL): vaisala-cl31 instrument deployed at Lisa-P7",
                "abstract": "vaisala-cl31 instrument instrument deployed at Lisa-P7 operated by Laboratoire Inter-Universitaire Des Systèmes Atmosphériques (LISA/IPSL) providing cloud base height and aerosol profile data."
            }
        },
        {
            "ob_id": 13482,
            "platform": {
                "ob_id": 32912,
                "uuid": "b1b0a524266e4b6c9d468259847d60f9",
                "short_code": "plat",
                "title": "Research Vessel Polarstern",
                "abstract": "RV Polarstern (meaning pole star) is a German research icebreaker of the Alfred Wegener Institute for Polar and Marine Research (AWI) in  Bremerhaven, Germany. Polarstern was built by Howaldtswerke-Deutsche Werft in Kiel and Nobiskrug in Rendsburg, was commissioned in 1982, and is mainly used for research in the Arctic and Antarctica. The ship has a length of 118 metres (387 feet) and is a double-hulled icebreaker."
            },
            "instrument": {
                "ob_id": 39476,
                "uuid": "1a15df1693c846d2a74d180e030197c5",
                "short_code": "instr",
                "title": "NCAS Sodar 1 - Scintec MFAS sodar",
                "abstract": "NCAS Scintec Flat Array Sodar (MFAS)  sodar  provides  high resolution measurements of wind and turbulence up to 1000 m above the ground. The operation is based on the reflection of acoustic pulses at temperature inhomogeneities in the air with subsequent doppler analysis."
            },
            "relatedTo": {
                "ob_id": 39475,
                "uuid": "64341dbbe1094b87b2e928feb04b0481",
                "short_code": "acq",
                "title": "Acquisition for: MOSAiC: Wind speed, wind profile, wind direction and acoustic backscatter from Scintec MFAS sodar on Icebreaker Polarstern",
                "abstract": "Acquisition for: MOSAiC: Wind speed, wind profile, wind direction and acoustic backscatter from Scintec MFAS sodar on Icebreaker Polarstern"
            }
        },
        {
            "ob_id": 13483,
            "platform": {
                "ob_id": 27247,
                "uuid": "d5b7691e10f54dafbc29f872b62b92f2",
                "short_code": "plat",
                "title": "USA California Grove of Old Trees 05/09/2017",
                "abstract": "The data was collected using the following TLS Scanning and produced using the following processing state settings:\r\nScan Pattern\t\r\nResolution (o): 15m\r\nWaveform:\tN\r\nResolution: 0.04\r\nRGB\t: Y \r\nPersonnel:  A.Burt,M.Disney,L.Duncanson\r\nRegistered: Y\r\nExtracted: N\r\nModelled: : N\r\nPoC\t: AB\r\nStem #: -\r\nPlot cencus:  - \r\nTLS data: -"
            },
            "instrument": {
                "ob_id": 27223,
                "uuid": "d80d5c2b6b40455c82707bc53c200f2a",
                "short_code": "instr",
                "title": "UCL  RIEGL VZ-400 Terrestrial Laser Scaner",
                "abstract": "Instrument Serial: S9999808\r\nThe RIEGL  VZ-400  V-Line®  3D  Terrestrial  Laser  Scanner  provides  high  speed,  non-contact  data  acquisition  using  a  narrow  infrared  laser  beam and a fast scanning mechanism. High-accuracy laser ranging is  based  upon  RIEGL’s  unique  echo  digitization  and  online  waveform  processing,  which  enables  superior  measurement  performance  even  during adverse environmental conditions and provides multiple return capability.The RIEGL VZ-400 is a very compact and lightweight surveying instrument, mountable in any orientation and even able to perform in limited space conditions.Modes of Operation:•  stand-alone data acquisition without the need of a computer•  basic configuration and control via built-in user interface•  remote  operation  via  RiSCAN  PRO  on  a  notebook,  connectedeither via LAN interface or integrated WLAN•  well-documented command interface for smooth integration into mobile laser scanning systems•  interfacing to post processing softwareUser Interfaces:•   integrated   Human-Machine   Interface   (HMI)   for   stand-alone   operation without a computer•  high-resolution 3,5” TFT color display, 320 x 240 pixel, scratch resistantglass with anti-reflection coating and multi-lingual menu•  water  and  dirt  resistant  key  pad  with  large  buttons  for  instrument  control•  speaker for audible status and operation communications"
            },
            "relatedTo": {
                "ob_id": 39483,
                "uuid": "5936a0971f014c49a5eaba158dce1900",
                "short_code": "acq",
                "title": "The Grove of Old Trees reserve California 05/09/2017",
                "abstract": "The data was collected from the Weighing trees with lasers project: terrestrial laser scanner data; The Grove of Old Trees reserve California on the 05/09/2017 using the  RIEGL VZ-400 Terrestrial Laser Scanner"
            }
        },
        {
            "ob_id": 13484,
            "platform": {
                "ob_id": 27252,
                "uuid": "51f5a9e08de3435c8d79f988f132d1ad",
                "short_code": "plat",
                "title": "USA California Armstong Sea Ranch 18/09/2017",
                "abstract": "The data was collected using the following TLS Scanning and produced using the following processing state settings:\r\nScan Pattern\t\r\nResolution (o): 15m\r\nWaveform:\tN\r\nResolution: 0.04\r\nRGB\t: Y \r\nPersonnel:  A.Burt,L.Duncanson,N.Thomas\r\nRegistered: Y\r\nExtracted: N\r\nModelled: : N\r\nPoC\t: AB\r\nStem #: -\r\nPlot cencus:  - \r\nTLS data: -"
            },
            "instrument": {
                "ob_id": 27223,
                "uuid": "d80d5c2b6b40455c82707bc53c200f2a",
                "short_code": "instr",
                "title": "UCL  RIEGL VZ-400 Terrestrial Laser Scaner",
                "abstract": "Instrument Serial: S9999808\r\nThe RIEGL  VZ-400  V-Line®  3D  Terrestrial  Laser  Scanner  provides  high  speed,  non-contact  data  acquisition  using  a  narrow  infrared  laser  beam and a fast scanning mechanism. High-accuracy laser ranging is  based  upon  RIEGL’s  unique  echo  digitization  and  online  waveform  processing,  which  enables  superior  measurement  performance  even  during adverse environmental conditions and provides multiple return capability.The RIEGL VZ-400 is a very compact and lightweight surveying instrument, mountable in any orientation and even able to perform in limited space conditions.Modes of Operation:•  stand-alone data acquisition without the need of a computer•  basic configuration and control via built-in user interface•  remote  operation  via  RiSCAN  PRO  on  a  notebook,  connectedeither via LAN interface or integrated WLAN•  well-documented command interface for smooth integration into mobile laser scanning systems•  interfacing to post processing softwareUser Interfaces:•   integrated   Human-Machine   Interface   (HMI)   for   stand-alone   operation without a computer•  high-resolution 3,5” TFT color display, 320 x 240 pixel, scratch resistantglass with anti-reflection coating and multi-lingual menu•  water  and  dirt  resistant  key  pad  with  large  buttons  for  instrument  control•  speaker for audible status and operation communications"
            },
            "relatedTo": {
                "ob_id": 39485,
                "uuid": "28f16cfc0d984ce4b5ce62502fd847a7",
                "short_code": "acq",
                "title": "The Sea Ranch Woods  California 08/09/2017",
                "abstract": "The data was collected from the Weighing trees with lasers project: terrestrial laser scanner data; The Sea Ranch woods California on 09/09/2017 using the  RIEGL VZ-400 Terrestrial Laser Scanner"
            }
        },
        {
            "ob_id": 13485,
            "platform": {
                "ob_id": 27246,
                "uuid": "4117795bd45e446e9edc2d63c69c67d0",
                "short_code": "plat",
                "title": "USA California Grove of Old Trees 09/09/2017",
                "abstract": "The data was collected using the following TLS Scanning and produced using the following processing state settings:\r\nScan Pattern\t\r\nResolution (o): -\r\nWaveform:\tN\r\nResolution: 0.04\r\nRGB\t: Y \r\nPersonnel:  A.Burt,M.Disney,L.Duncanson\r\nRegistered: Y\r\nExtracted: N\r\nModelled: : N\r\nPoC\t: AB\r\nStem #: -\r\nPlot cencus:  - \r\nTLS data: -"
            },
            "instrument": {
                "ob_id": 27223,
                "uuid": "d80d5c2b6b40455c82707bc53c200f2a",
                "short_code": "instr",
                "title": "UCL  RIEGL VZ-400 Terrestrial Laser Scaner",
                "abstract": "Instrument Serial: S9999808\r\nThe RIEGL  VZ-400  V-Line®  3D  Terrestrial  Laser  Scanner  provides  high  speed,  non-contact  data  acquisition  using  a  narrow  infrared  laser  beam and a fast scanning mechanism. High-accuracy laser ranging is  based  upon  RIEGL’s  unique  echo  digitization  and  online  waveform  processing,  which  enables  superior  measurement  performance  even  during adverse environmental conditions and provides multiple return capability.The RIEGL VZ-400 is a very compact and lightweight surveying instrument, mountable in any orientation and even able to perform in limited space conditions.Modes of Operation:•  stand-alone data acquisition without the need of a computer•  basic configuration and control via built-in user interface•  remote  operation  via  RiSCAN  PRO  on  a  notebook,  connectedeither via LAN interface or integrated WLAN•  well-documented command interface for smooth integration into mobile laser scanning systems•  interfacing to post processing softwareUser Interfaces:•   integrated   Human-Machine   Interface   (HMI)   for   stand-alone   operation without a computer•  high-resolution 3,5” TFT color display, 320 x 240 pixel, scratch resistantglass with anti-reflection coating and multi-lingual menu•  water  and  dirt  resistant  key  pad  with  large  buttons  for  instrument  control•  speaker for audible status and operation communications"
            },
            "relatedTo": {
                "ob_id": 39489,
                "uuid": "092c7c1afcea47618a9ca1f8451826f8",
                "short_code": "acq",
                "title": "The Grove of Old Trees reserve California 09/09/2017",
                "abstract": "The data was collected from the Weighing trees with lasers project: terrestrial laser scanner data; The Grove of Old Trees reserve California on the 09/09/2017 using the  RIEGL VZ-400 Terrestrial Laser Scanner"
            }
        },
        {
            "ob_id": 13487,
            "platform": {
                "ob_id": 27243,
                "uuid": "aa8b0c97b02f4166b448e19c809bc6be",
                "short_code": "plat",
                "title": "USA Massachusetts Harvard Forest 14/08/2017",
                "abstract": "The data was collected using the following TLS Scanning and produced using the following processing state settings:\r\nScan Pattern\t\r\nResolution (o):\t-\r\nWaveform:\tN\r\nResolution: 0.04\r\nRGB\t: Y \r\nPersonnel:  A.Burt,W.Woodgate,E.Saenz\r\nRegistered: Y\r\nExtracted: N\r\nModelled: : N\r\nPoC\t: AB\r\nStem #: -\r\nPlot cencus:  - \r\nTLS data: -"
            },
            "instrument": {
                "ob_id": 27223,
                "uuid": "d80d5c2b6b40455c82707bc53c200f2a",
                "short_code": "instr",
                "title": "UCL  RIEGL VZ-400 Terrestrial Laser Scaner",
                "abstract": "Instrument Serial: S9999808\r\nThe RIEGL  VZ-400  V-Line®  3D  Terrestrial  Laser  Scanner  provides  high  speed,  non-contact  data  acquisition  using  a  narrow  infrared  laser  beam and a fast scanning mechanism. High-accuracy laser ranging is  based  upon  RIEGL’s  unique  echo  digitization  and  online  waveform  processing,  which  enables  superior  measurement  performance  even  during adverse environmental conditions and provides multiple return capability.The RIEGL VZ-400 is a very compact and lightweight surveying instrument, mountable in any orientation and even able to perform in limited space conditions.Modes of Operation:•  stand-alone data acquisition without the need of a computer•  basic configuration and control via built-in user interface•  remote  operation  via  RiSCAN  PRO  on  a  notebook,  connectedeither via LAN interface or integrated WLAN•  well-documented command interface for smooth integration into mobile laser scanning systems•  interfacing to post processing softwareUser Interfaces:•   integrated   Human-Machine   Interface   (HMI)   for   stand-alone   operation without a computer•  high-resolution 3,5” TFT color display, 320 x 240 pixel, scratch resistantglass with anti-reflection coating and multi-lingual menu•  water  and  dirt  resistant  key  pad  with  large  buttons  for  instrument  control•  speaker for audible status and operation communications"
            },
            "relatedTo": {
                "ob_id": 39494,
                "uuid": "ccf8331a9bfe47e08c7f5fddec729867",
                "short_code": "acq",
                "title": "Harvard Forrest ecological research area 14/08/2017",
                "abstract": "The data was collected from the Weighing trees with lasers project: terrestrial laser scanner data; Harvard Forrest ecological research area 14/08/2017 using the  RIEGL VZ-400 Terrestrial Laser Scanner"
            }
        },
        {
            "ob_id": 13488,
            "platform": {
                "ob_id": 5512,
                "uuid": "bd14245375844b1ba0869f1f672f09fc",
                "short_code": "plat",
                "title": "NIMBUS 5 satellite",
                "abstract": "NASA polar-orbiting spacecraft designed to serve as a stabilized, earth-oriented platform for the testing of advanced meteorological sensor systems and collecting meteorological and geological data on a global scale. It was launched on 11th December 1972."
            },
            "instrument": {
                "ob_id": 39501,
                "uuid": "cb845bc0a7d0465183445db22a660283",
                "short_code": "instr",
                "title": "ESMR",
                "abstract": "Data from the Electrically Scanning Microwave Radiometer (ESMR) on board the NIMBUS-5 satellite."
            },
            "relatedTo": {
                "ob_id": 39502,
                "uuid": "0ced6ecb04824c1399cec262e6dfce52",
                "short_code": "acq",
                "title": "ESMR (Electrically Scanning Microwave Radiometer) on board the NIMBUS-5 satellite.",
                "abstract": "This acquisition is comprised of the following: INSTRUMENTS: ESMR; PLATFORMS: NIMBUS-5;"
            }
        }
    ]
}