Instrument Platform Pair List
Get a list of InstrumentPlaformPair objects. InstrumentPlaformPairs are used within Acquisitions which
enable linking between Instruments, Platforms and Observations (though may be via CompositeProcesses).
GET /api/v3/ipps/?format=api&offset=14200
{ "count": 14224, "next": null, "previous": "https://catalogue.ceda.ac.uk/api/v3/ipps/?format=api&limit=100&offset=14100", "results": [ { "ob_id": 14730, "platform": { "ob_id": 817, "uuid": "0d60dd064b6449b09f5c7fd4c41bd693", "short_code": "plat", "title": "NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "The National Centre for Atmospheric Science's Chilbolton Atmospheric Observatory, formerly known as the Chilbolton Facility for Atmospheric and Radio Research (CFARR), is hosted by the Science and Technology Facilities Council (STFC) in rural Hampshire in the South of England. Through a combination of long-term observations and tailored operations it provides national capability for the study of clouds, rainfall, boundary-layer processes and aerosols, and is particularly well suited as a site for hosting field campaigns involving visiting instruments.\r\n\r\nThe CAO site is located one mile south of Chilbolton Village, 6 miles south of Andover, Hampshire. The site was used as an airfield during the Second World War and is relatively flat and slightly elevated above the surrounding area.\r\n\r\nThe observatory operates more than twenty major instruments, many continuously, while others are available on-demand according to user configuration requirements. The portfolio includes a powerful combination of dual-polarisation Doppler radars, lidars, radiometers, and supporting instruments; the continuous round-the-clock operation of lidar and cloud radar instruments at Chilbolton is unique within the UK. These are supplemented by a suite of meteorological instrumentation including rain gauges, and disdrometers. A multi-wavelength sun photometer provides continuous measurements of aerosol optical depth in clear skies, and contributes to the Aerosol Robotic Network (AERONET).\r\n\r\nThe Chilbolton Advanced Meteorological Radar (CAMRa) is mounted on a 25-metre, fully steerable antenna, and is able to probe clouds and storms with unparalleled sensitivity and resolution. In addition, zenith-pointing polarimetric, Doppler 35 GHz and 94 GHz cloud radars are routinely operated for detailed microphysical studies of cloud processes and cloud climatology. A transportable, scanning 35 GHz cloud radar system is also hosted at Chilbolton, further enhancing the available capability.\r\n\r\nChilbolton was one of the pilot cloud profiling sites for the CLOUDNET project, and continues to make observations that feed into the Aerosol Clouds and Trace Gases Research Infrastructure (ACTRIS). Capability at the site will be enhanced in the next few years, with the incorporation of a Raman lidar, with the ambition being for this to form an ACTRIS observational platform for aerosol profiling.\r\n\r\nThe presence (since January 2016) of a Defra air quality monitoring supersite at the observatory site (providing rural background measurements as part of national and transboundary networks) offers the research community further excellent opportunities for intercomparison campaigns and instrument evaluation.\r\n\r\nWIGOS id: \r\n0-826-300-3\r\n0-826-300-4\r\n0-826-300-5\r\n\r\nThe Met Office also operated a boundary layer wind profiler at the site (now operated by NCAS AMOF), for which the site was given a WMO ID 03754." }, "instrument": { "ob_id": 13471, "uuid": "2fbac331d4b84e62afe38f6305479a20", "short_code": "instr", "title": "Chilbolton Facility for Atmospheric and Radio Research (CFARR): Metek USA-1 sonic anemometer", "abstract": "The Metek USA-1 sonic anemometer measures the 3 orthogonal components of the wind velocity by measuring the changes in the time of flight of sonic pulses between 3 transmitter/receiver pairs as a result of the air velocity. A sonic anemometer can provide rapidly updated measurements of the wind components, faster than a conventional cup and vane anemometer. This makes it particularly suitable for eddy covariance measurements and studies of turbulence. It operates continuously.\r\n\r\nThe Metek USA-1 sonic anemometer measures the 3 orthogonal components of the wind velocity by measuring the changes in the time of flight of sonic pulses between 3 transmitter/receiver pairs as a result of the air velocity.\r\n\r\nData are measured at 20Hz, with output recording the zonal, meridional and vertical wind speeds." }, "relatedTo": { "ob_id": 45925, "uuid": "7dddf2e7109d4f658533d94d4912b5be", "short_code": "acq", "title": "NCAS Long Term Measurements: Chilbolton Facility for Atmospheric and Radio Research (CFARR): Metek USA-1 sonic anemometer instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "NCAS Long Term Measurements: Chilbolton Facility for Atmospheric and Radio Research (CFARR): Metek USA-1 sonic anemometer instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)." } }, { "ob_id": 14731, "platform": { "ob_id": 817, "uuid": "0d60dd064b6449b09f5c7fd4c41bd693", "short_code": "plat", "title": "NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "The National Centre for Atmospheric Science's Chilbolton Atmospheric Observatory, formerly known as the Chilbolton Facility for Atmospheric and Radio Research (CFARR), is hosted by the Science and Technology Facilities Council (STFC) in rural Hampshire in the South of England. Through a combination of long-term observations and tailored operations it provides national capability for the study of clouds, rainfall, boundary-layer processes and aerosols, and is particularly well suited as a site for hosting field campaigns involving visiting instruments.\r\n\r\nThe CAO site is located one mile south of Chilbolton Village, 6 miles south of Andover, Hampshire. The site was used as an airfield during the Second World War and is relatively flat and slightly elevated above the surrounding area.\r\n\r\nThe observatory operates more than twenty major instruments, many continuously, while others are available on-demand according to user configuration requirements. The portfolio includes a powerful combination of dual-polarisation Doppler radars, lidars, radiometers, and supporting instruments; the continuous round-the-clock operation of lidar and cloud radar instruments at Chilbolton is unique within the UK. These are supplemented by a suite of meteorological instrumentation including rain gauges, and disdrometers. A multi-wavelength sun photometer provides continuous measurements of aerosol optical depth in clear skies, and contributes to the Aerosol Robotic Network (AERONET).\r\n\r\nThe Chilbolton Advanced Meteorological Radar (CAMRa) is mounted on a 25-metre, fully steerable antenna, and is able to probe clouds and storms with unparalleled sensitivity and resolution. In addition, zenith-pointing polarimetric, Doppler 35 GHz and 94 GHz cloud radars are routinely operated for detailed microphysical studies of cloud processes and cloud climatology. A transportable, scanning 35 GHz cloud radar system is also hosted at Chilbolton, further enhancing the available capability.\r\n\r\nChilbolton was one of the pilot cloud profiling sites for the CLOUDNET project, and continues to make observations that feed into the Aerosol Clouds and Trace Gases Research Infrastructure (ACTRIS). Capability at the site will be enhanced in the next few years, with the incorporation of a Raman lidar, with the ambition being for this to form an ACTRIS observational platform for aerosol profiling.\r\n\r\nThe presence (since January 2016) of a Defra air quality monitoring supersite at the observatory site (providing rural background measurements as part of national and transboundary networks) offers the research community further excellent opportunities for intercomparison campaigns and instrument evaluation.\r\n\r\nWIGOS id: \r\n0-826-300-3\r\n0-826-300-4\r\n0-826-300-5\r\n\r\nThe Met Office also operated a boundary layer wind profiler at the site (now operated by NCAS AMOF), for which the site was given a WMO ID 03754." }, "instrument": { "ob_id": 41955, "uuid": "991c902b1b2c41f9899290aa69925f89", "short_code": "instr", "title": "NCAS Temperature and Humidity Sensor unit 1 instrument", "abstract": "NCAS Temperature and Humidity Sensor unit 1.\r\nManufacturer: Vaisala\r\nModel Number: HMP155A\r\nSerial number: L0550630\r\nData Products available for this instrument: surface-met\r\n\r\nThis instrument is hosted by the Science and Technology Facilties Council (STFC) for the National Centre of Atmospheric Science (NCAS)." }, "relatedTo": { "ob_id": 45928, "uuid": "b130badf0fa3436187a82071fb92f7b2", "short_code": "acq", "title": "NCAS Long Term Measurements: NCAS Temperature and Humidity Sensor unit 1 instrument instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "NCAS Long Term Measurements: NCAS Temperature and Humidity Sensor unit 1 instrument instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)." } }, { "ob_id": 14732, "platform": { "ob_id": 817, "uuid": "0d60dd064b6449b09f5c7fd4c41bd693", "short_code": "plat", "title": "NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "The National Centre for Atmospheric Science's Chilbolton Atmospheric Observatory, formerly known as the Chilbolton Facility for Atmospheric and Radio Research (CFARR), is hosted by the Science and Technology Facilities Council (STFC) in rural Hampshire in the South of England. Through a combination of long-term observations and tailored operations it provides national capability for the study of clouds, rainfall, boundary-layer processes and aerosols, and is particularly well suited as a site for hosting field campaigns involving visiting instruments.\r\n\r\nThe CAO site is located one mile south of Chilbolton Village, 6 miles south of Andover, Hampshire. The site was used as an airfield during the Second World War and is relatively flat and slightly elevated above the surrounding area.\r\n\r\nThe observatory operates more than twenty major instruments, many continuously, while others are available on-demand according to user configuration requirements. The portfolio includes a powerful combination of dual-polarisation Doppler radars, lidars, radiometers, and supporting instruments; the continuous round-the-clock operation of lidar and cloud radar instruments at Chilbolton is unique within the UK. These are supplemented by a suite of meteorological instrumentation including rain gauges, and disdrometers. A multi-wavelength sun photometer provides continuous measurements of aerosol optical depth in clear skies, and contributes to the Aerosol Robotic Network (AERONET).\r\n\r\nThe Chilbolton Advanced Meteorological Radar (CAMRa) is mounted on a 25-metre, fully steerable antenna, and is able to probe clouds and storms with unparalleled sensitivity and resolution. In addition, zenith-pointing polarimetric, Doppler 35 GHz and 94 GHz cloud radars are routinely operated for detailed microphysical studies of cloud processes and cloud climatology. A transportable, scanning 35 GHz cloud radar system is also hosted at Chilbolton, further enhancing the available capability.\r\n\r\nChilbolton was one of the pilot cloud profiling sites for the CLOUDNET project, and continues to make observations that feed into the Aerosol Clouds and Trace Gases Research Infrastructure (ACTRIS). Capability at the site will be enhanced in the next few years, with the incorporation of a Raman lidar, with the ambition being for this to form an ACTRIS observational platform for aerosol profiling.\r\n\r\nThe presence (since January 2016) of a Defra air quality monitoring supersite at the observatory site (providing rural background measurements as part of national and transboundary networks) offers the research community further excellent opportunities for intercomparison campaigns and instrument evaluation.\r\n\r\nWIGOS id: \r\n0-826-300-3\r\n0-826-300-4\r\n0-826-300-5\r\n\r\nThe Met Office also operated a boundary layer wind profiler at the site (now operated by NCAS AMOF), for which the site was given a WMO ID 03754." }, "instrument": { "ob_id": 41924, "uuid": "46f8915fb24f4e11985fa792fb5417c4", "short_code": "instr", "title": "NCAS Ka-Band Mobile Cloud Radar unit 1 instrument", "abstract": "NCAS Ka-Band Mobile Cloud Radar unit 1.\nManufacturer: METEK\nModel Number: MIRA-35\nSerial number: nan\nData Products available for this instrument: radar\n\nThis instrument is hosted by the Science and Technology Facilties Council (STFC) for the National Centre of Atmospheric Science (NCAS)." }, "relatedTo": { "ob_id": 45932, "uuid": "967c0c11f83d42929b7235dc266bd3f9", "short_code": "acq", "title": "Contrail Observations and Lifecycle Tracking (COBALT): NCAS Ka-Band Mobile Cloud Radar unit 1 instrument instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "Contrail Observations and Lifecycle Tracking (COBALT): NCAS Ka-Band Mobile Cloud Radar unit 1 instrument instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)." } }, { "ob_id": 14733, "platform": { "ob_id": 817, "uuid": "0d60dd064b6449b09f5c7fd4c41bd693", "short_code": "plat", "title": "NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "The National Centre for Atmospheric Science's Chilbolton Atmospheric Observatory, formerly known as the Chilbolton Facility for Atmospheric and Radio Research (CFARR), is hosted by the Science and Technology Facilities Council (STFC) in rural Hampshire in the South of England. Through a combination of long-term observations and tailored operations it provides national capability for the study of clouds, rainfall, boundary-layer processes and aerosols, and is particularly well suited as a site for hosting field campaigns involving visiting instruments.\r\n\r\nThe CAO site is located one mile south of Chilbolton Village, 6 miles south of Andover, Hampshire. The site was used as an airfield during the Second World War and is relatively flat and slightly elevated above the surrounding area.\r\n\r\nThe observatory operates more than twenty major instruments, many continuously, while others are available on-demand according to user configuration requirements. The portfolio includes a powerful combination of dual-polarisation Doppler radars, lidars, radiometers, and supporting instruments; the continuous round-the-clock operation of lidar and cloud radar instruments at Chilbolton is unique within the UK. These are supplemented by a suite of meteorological instrumentation including rain gauges, and disdrometers. A multi-wavelength sun photometer provides continuous measurements of aerosol optical depth in clear skies, and contributes to the Aerosol Robotic Network (AERONET).\r\n\r\nThe Chilbolton Advanced Meteorological Radar (CAMRa) is mounted on a 25-metre, fully steerable antenna, and is able to probe clouds and storms with unparalleled sensitivity and resolution. In addition, zenith-pointing polarimetric, Doppler 35 GHz and 94 GHz cloud radars are routinely operated for detailed microphysical studies of cloud processes and cloud climatology. A transportable, scanning 35 GHz cloud radar system is also hosted at Chilbolton, further enhancing the available capability.\r\n\r\nChilbolton was one of the pilot cloud profiling sites for the CLOUDNET project, and continues to make observations that feed into the Aerosol Clouds and Trace Gases Research Infrastructure (ACTRIS). Capability at the site will be enhanced in the next few years, with the incorporation of a Raman lidar, with the ambition being for this to form an ACTRIS observational platform for aerosol profiling.\r\n\r\nThe presence (since January 2016) of a Defra air quality monitoring supersite at the observatory site (providing rural background measurements as part of national and transboundary networks) offers the research community further excellent opportunities for intercomparison campaigns and instrument evaluation.\r\n\r\nWIGOS id: \r\n0-826-300-3\r\n0-826-300-4\r\n0-826-300-5\r\n\r\nThe Met Office also operated a boundary layer wind profiler at the site (now operated by NCAS AMOF), for which the site was given a WMO ID 03754." }, "instrument": { "ob_id": 41924, "uuid": "46f8915fb24f4e11985fa792fb5417c4", "short_code": "instr", "title": "NCAS Ka-Band Mobile Cloud Radar unit 1 instrument", "abstract": "NCAS Ka-Band Mobile Cloud Radar unit 1.\nManufacturer: METEK\nModel Number: MIRA-35\nSerial number: nan\nData Products available for this instrument: radar\n\nThis instrument is hosted by the Science and Technology Facilties Council (STFC) for the National Centre of Atmospheric Science (NCAS)." }, "relatedTo": { "ob_id": 45936, "uuid": "d101bb50172c46eda68a93529f78416f", "short_code": "acq", "title": "Characterising CiRrus and icE cloud acrosS the specTrum - Microwave (CCREST-M): NCAS Ka-Band Mobile Cloud Radar unit 1 instrument instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)", "abstract": "Characterising CiRrus and icE cloud acrosS the specTrum - Microwave (CCREST-M): NCAS Ka-Band Mobile Cloud Radar unit 1 instrument instrument deployed at NCAS Chilbolton Atmospheric Observatory (CAO)." } }, { "ob_id": 14734, "platform": { "ob_id": 878, "uuid": "07ca4fd3a5464fe6bf860dfe8a09e5ea", "short_code": "plat", "title": "NCAS Cape Verde Atmospheric Observatory", "abstract": "The National Centre for Atmospheric Science's Cape Verde Atmospheric Observatory (CVAO) is part of a bilateral German-UK initiative to undertake long-term ground- and ocean-based observations in the tropical Eastern North Atlantic Ocean region. It links with the international programme SOLAS, the EU-funded TENATSO (Tropical Eastern North Atlantic Time-Series Observatory) project, and with the German SOPRAN (Surface Ocean Processes in the Anthropocene) project.\r\n\r\nThe CVAO (16° 51′ 49 N, 24° 52′ 02 W), exists to advance understanding of climatically-significant interactions between the atmosphere and ocean and to provide a regional focal point and long-term data context for field campaigns. Measurements of O3, CO, NO, NO2, NOy and VOCs began at the site in October 2006. Chemical characterisation of aerosol measurements and flask sampling of greenhouse gases began in November 2006, halocarbon measurements in May 2007, and physical measurements of aerosol in June 2008. On-line measurements of greenhouse gases began in October 2008.\r\n\r\nThe CVAO is a World Meteorological Organisation-Global Atmospheric Watch (WMO-GAW) global station and quality-assured atmospheric data for use by both UK and German scientists, and the wider international community are regularly deposited at both the WMO-GAW and Centre for Environmental Data Analysis (CEDA) data archives. The Universities of York, Bristol and Leeds provide the CVAO trace gas measurements, supported by the Natural Environmental Research Council (NERC) through the Atmospheric Measurement & Observation Facility (AMOF). The Max-Planck-Institut für Biogeochemie, Jena, Germany (MPIB Jena) make the greenhouse gas measurements, and the Leibniz-Institut für Troposphärenforschung, Leipzig, Germany (IfT) measure various characteristics of aerosol. Collaboration is also with the Instituto Nacional de Meteorologia e Geofísica, São Vicente (INMG), who provide logistical support and employ staff at the CVAO. The sister ocean site is a partnership of the Instituto Nacional de Desenvolvimento das Pescas, São Vicente (INDP), and the Leibniz-Institut für Meereswissenschaften, Kiel, Germany (IfM-GEOMAR Kiel). Scientific activities at both sites are coordinated in collaboration with the above institutions." }, "instrument": { "ob_id": 799, "uuid": "cb9dcae55bee4f4dbc79374f6199b9d4", "short_code": "instr", "title": "Leeds: TEI 49 UV absorption O3 analyser", "abstract": "Thermo Environmental Instruments 49C UV absorption O3 analyser under AMF and currently operated by the University of Leeds. This is a ground-based laser-induced fluorescence instrument for detection of OH, HO2, and RO2 radicals. OH reactivity measurements using a laser flash-photolysis technique can be provided alongside the radical measurements. The instrument is housed in and operated from a custom-built 20 ft shipping container." }, "relatedTo": { "ob_id": 45939, "uuid": "39dd1d2b08ca4e42bd644940c6bee3cd", "short_code": "acq", "title": "NCAS Long Term Measurements: Leeds: TEI 49 UV absorption O3 analyser instrument deployed at NCAS Cape Verde Atmospheric Observatory", "abstract": "NCAS Long Term Measurements: Leeds: TEI 49 UV absorption O3 analyser instrument deployed at NCAS Cape Verde Atmospheric Observatory." } }, { "ob_id": 14735, "platform": { "ob_id": 878, "uuid": "07ca4fd3a5464fe6bf860dfe8a09e5ea", "short_code": "plat", "title": "NCAS Cape Verde Atmospheric Observatory", "abstract": "The National Centre for Atmospheric Science's Cape Verde Atmospheric Observatory (CVAO) is part of a bilateral German-UK initiative to undertake long-term ground- and ocean-based observations in the tropical Eastern North Atlantic Ocean region. It links with the international programme SOLAS, the EU-funded TENATSO (Tropical Eastern North Atlantic Time-Series Observatory) project, and with the German SOPRAN (Surface Ocean Processes in the Anthropocene) project.\r\n\r\nThe CVAO (16° 51′ 49 N, 24° 52′ 02 W), exists to advance understanding of climatically-significant interactions between the atmosphere and ocean and to provide a regional focal point and long-term data context for field campaigns. Measurements of O3, CO, NO, NO2, NOy and VOCs began at the site in October 2006. Chemical characterisation of aerosol measurements and flask sampling of greenhouse gases began in November 2006, halocarbon measurements in May 2007, and physical measurements of aerosol in June 2008. On-line measurements of greenhouse gases began in October 2008.\r\n\r\nThe CVAO is a World Meteorological Organisation-Global Atmospheric Watch (WMO-GAW) global station and quality-assured atmospheric data for use by both UK and German scientists, and the wider international community are regularly deposited at both the WMO-GAW and Centre for Environmental Data Analysis (CEDA) data archives. The Universities of York, Bristol and Leeds provide the CVAO trace gas measurements, supported by the Natural Environmental Research Council (NERC) through the Atmospheric Measurement & Observation Facility (AMOF). The Max-Planck-Institut für Biogeochemie, Jena, Germany (MPIB Jena) make the greenhouse gas measurements, and the Leibniz-Institut für Troposphärenforschung, Leipzig, Germany (IfT) measure various characteristics of aerosol. Collaboration is also with the Instituto Nacional de Meteorologia e Geofísica, São Vicente (INMG), who provide logistical support and employ staff at the CVAO. The sister ocean site is a partnership of the Instituto Nacional de Desenvolvimento das Pescas, São Vicente (INDP), and the Leibniz-Institut für Meereswissenschaften, Kiel, Germany (IfM-GEOMAR Kiel). Scientific activities at both sites are coordinated in collaboration with the above institutions." }, "instrument": { "ob_id": 799, "uuid": "cb9dcae55bee4f4dbc79374f6199b9d4", "short_code": "instr", "title": "Leeds: TEI 49 UV absorption O3 analyser", "abstract": "Thermo Environmental Instruments 49C UV absorption O3 analyser under AMF and currently operated by the University of Leeds. This is a ground-based laser-induced fluorescence instrument for detection of OH, HO2, and RO2 radicals. OH reactivity measurements using a laser flash-photolysis technique can be provided alongside the radical measurements. The instrument is housed in and operated from a custom-built 20 ft shipping container." }, "relatedTo": { "ob_id": 45942, "uuid": "a3bb79db4582498b8efeb0ed5980435f", "short_code": "acq", "title": "NCAS Long Term Measurements: Leeds: TEI 49 UV absorption O3 analyser instrument deployed at NCAS Cape Verde Atmospheric Observatory", "abstract": "NCAS Long Term Measurements: Leeds: TEI 49 UV absorption O3 analyser instrument deployed at NCAS Cape Verde Atmospheric Observatory." } }, { "ob_id": 14736, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 14773, "uuid": "39c53c951f394cae84c724e0f1563364", "short_code": "instr", "title": "Honeywell HPA sensors", "abstract": "Static and Dynamic pressure from the aircraft static ports and heated pitot tube, logged using\r\nHoneywell HPA sensors at 5Hz." }, "relatedTo": { "ob_id": 45947, "uuid": "524e87c8639046569a1e8eeac320bcea", "short_code": "acq", "title": "Arctic Summer-time Cyclones: BAS-MASIN aircraft atmospheric measurements", "abstract": "ASC: BAS-MASIN aircraft atmospheric measurements" } }, { "ob_id": 14737, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 14774, "uuid": "49c23c6c2e5b4ff8a89db99adca034a7", "short_code": "instr", "title": "A JAVAD AT4 4-antenna GPS system", "abstract": "A JAVAD AT4 4-antenna GPS system records heading, pitch and roll at 20Hz and velocites at 10 Hz.\r\nAntennas are permanently fitted to each wingtip and fore and aft of the fuselage." }, "relatedTo": { "ob_id": 45947, "uuid": "524e87c8639046569a1e8eeac320bcea", "short_code": "acq", "title": "Arctic Summer-time Cyclones: BAS-MASIN aircraft atmospheric measurements", "abstract": "ASC: BAS-MASIN aircraft atmospheric measurements" } }, { "ob_id": 14738, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 45947, "uuid": "524e87c8639046569a1e8eeac320bcea", "short_code": "acq", "title": "Arctic Summer-time Cyclones: BAS-MASIN aircraft atmospheric measurements", "abstract": "ASC: BAS-MASIN aircraft atmospheric measurements" } }, { "ob_id": 14739, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 11781, "uuid": "d216aa9bd3fef19fef363fba735374d6", "short_code": "instr", "title": "Turbulence probe", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 45947, "uuid": "524e87c8639046569a1e8eeac320bcea", "short_code": "acq", "title": "Arctic Summer-time Cyclones: BAS-MASIN aircraft atmospheric measurements", "abstract": "ASC: BAS-MASIN aircraft atmospheric measurements" } }, { "ob_id": 14740, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 14775, "uuid": "0d82d6c928ef4ebd9466f051c7096a24", "short_code": "instr", "title": "Goodrich Rosemount Probes", "abstract": "Goodrich Rosemount Probes mounted on the nose. A non de-iced model 102E4AL and a de-iced\r\nmodel 102AU1AG logged at 0.7Hz to measure temperature." }, "relatedTo": { "ob_id": 45947, "uuid": "524e87c8639046569a1e8eeac320bcea", "short_code": "acq", "title": "Arctic Summer-time Cyclones: BAS-MASIN aircraft atmospheric measurements", "abstract": "ASC: BAS-MASIN aircraft atmospheric measurements" } }, { "ob_id": 14741, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 14776, "uuid": "5c7373b0d44d4deeaed61f8b56724e5d", "short_code": "instr", "title": "LICOR LI-7000", "abstract": "A LICOR LI-7000 closed path infra-red gas analyser is fitted. Sampling is from a Rosemount inlet and\r\nreadings are triggered at 50 Hz, to measure closed path water vapour and CO2." }, "relatedTo": { "ob_id": 45947, "uuid": "524e87c8639046569a1e8eeac320bcea", "short_code": "acq", "title": "Arctic Summer-time Cyclones: BAS-MASIN aircraft atmospheric measurements", "abstract": "ASC: BAS-MASIN aircraft atmospheric measurements" } }, { "ob_id": 14744, "platform": { "ob_id": 7575, "uuid": "2a863d6731c44af2aedda1da73e1015b", "short_code": "plat", "title": "BAS Twin-Otter aircraft", "abstract": "The British Antarctic Survey has a Twin Otter aircraft with a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies.\r\n\r\nThe Twin Otter aircraft is a very adaptable platform used the world over as a ‘bush’ aircraft. Its twin turbo-prop engines and ‘Short Take off and Landing’ (STOL) capability allow it to be used from small, remote unpaved airfields and the addition of skis or tundra tyres also allows operation on snow and from remote camps.\r\n\r\nThe aircraft can be operated single pilot and a long range fuel tank is also available. Double cargo doors provide good access for installing instrument racks.\r\n\r\nIn general the aircraft works in the Antarctic from October through to March each year depending on projects, and can operate at other latitudes outside this period, for example ACCACIA in the Arctic February 2013.\r\n\r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds.\r\n\r\nThe fast turbulence probe also facilitates sensible heat flux measurements by the eddy covariance method. These boundary layer measurement capabilities are complemented by incoming and outgoing radiation instruments and a downward looking infra-red thermometer.\r\n\r\nThe floor hatch opening can also accommodate a fixed laser range finder or scanning laser which has been used for measuring ice floe topography. The required GPS and attitude measurements to support this are available. Video and digital SLR cameras can also be fitted here. The camera bay can also be configured to drop airborne deployable buoys.\r\n\r\nHard points and pylons are available on each wing. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. A closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter are fed from simple Rosemount inlets.\r\n\r\nRange:\t1000km including skis. Increased with long range tank depending on configuration.\r\nAirspeed:\tCruise 65m/s. Data collection 60m/s.\r\nComplement:\tPilot + maximum 4 mission operators / scientists.\r\nAltitudes:\tless than 35m to 5000m. Unpressurized but with oxygen fit for pilots and operators." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 45950, "uuid": "c629c1c4e3b04fe985734c350ec0dbf3", "short_code": "acq", "title": "Arctic Summer-time Cyclones: BAS-MASIN aircraft sea ice and pond melt measurements", "abstract": "ASC: BAS-MASIN aircraftsea ice and pond melt measurements" } }, { "ob_id": 14748, "platform": { "ob_id": 24865, "uuid": "8356e0e452904457bf5b73d0222f46ef", "short_code": "plat", "title": "British Antarctic Survey Twin Otter VP-FAZ aircraft", "abstract": "The British Antarctic Survey has a Twin Otter VP-FAZ aircraft, operated by NERC-ARF. It is a high-wing, twin-engine, turbo-prop aircraft designed to operate in remote environments and is easily modified to fit scientific instrumentation.\r\nIt possesses a certified fit of airborne atmospheric instrumentation suitable for atmospheric, boundary layer and cloud/aerosol studies and a multi-sensor payload typically consisting of a LiDAR, hyperspectral systems (VNIR, SWIR and LWIR) and a digital camera. The instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. Other standard PMS pod instruments can easily be accommodated. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "instrument": { "ob_id": 7747, "uuid": "7d67aae9aab54c6aae54db59254d2b68", "short_code": "instr", "title": "BAS Masin Twin-Otter Core instruments", "abstract": "A set of Meteorological Airborne Science INstrumentation (MASIN) on board the British Antarctic Survey (BAS) twin-otter aircraft. \r\nThe instrument suite includes standard temperature and water vapour sensors as well as a turbulence probe allowing full atmospheric profile measurements of temperature, dew point and winds. A DMT Cloud and aerosol spectrometer (CAPS) probe is used for cloud studies. There is also a closed path Licor H2O/CO2 instrument, Grimm optical particle counter and cloud condensation nuclei counter fed from simple Rosemount inlets." }, "relatedTo": { "ob_id": 45957, "uuid": "3430f8ae8f2645828e0a3adcad8eec95", "short_code": "acq", "title": "Acquisition for Sea ice fraction estimates from low-level aircraft compiled from ACCACIA, Iceland Greenland Seas Project and Arctic Summertime Cyclones project flights", "abstract": "This data set is a compilation of a small number of variables, in particular, sea ice fraction and radiation components, over several field campaigns" } }, { "ob_id": 14749, "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": 45957, "uuid": "3430f8ae8f2645828e0a3adcad8eec95", "short_code": "acq", "title": "Acquisition for Sea ice fraction estimates from low-level aircraft compiled from ACCACIA, Iceland Greenland Seas Project and Arctic Summertime Cyclones project flights", "abstract": "This data set is a compilation of a small number of variables, in particular, sea ice fraction and radiation components, over several field campaigns" } }, { "ob_id": 14750, "platform": { "ob_id": 45821, "uuid": "a7cfa4b2b8f5455ba5547150ce36abb2", "short_code": "plat", "title": "Leeds Philosophial Hall meteorological site", "abstract": "The Leeds Philosophical Hall meteorological site was located at:\r\n\r\nLatitude (decimal degrees):\t53.79943 ( WGS 84 value: 53.79965 )\r\nLongitude (decimal degrees):\t-1.54751 ( WGS 84 value: -1.54905 )\r\nGrid ref:\tSE 298338 (Easting: 429800 Northing: 433800)\r\nElevation:\t42.0 meters\r\n\r\nWith station IDs:\r\nRAIN 076081\r\nMIDAS src_id: 2577" }, "instrument": { "ob_id": 11761, "uuid": "6aa98bfccd39f02e9f1dc2af1638706c", "short_code": "instr", "title": "Wind vane", "abstract": "Instrument.abstract: DETAILS NEEDED" }, "relatedTo": { "ob_id": 45820, "uuid": "04435d278d0248809f6d3eda3a170469", "short_code": "acq", "title": "Acquisition for the Leeds Philosophical Society met records", "abstract": "Acquisition for the Leeds Philosophical Society met records" } }, { "ob_id": 14751, "platform": { "ob_id": 45821, "uuid": "a7cfa4b2b8f5455ba5547150ce36abb2", "short_code": "plat", "title": "Leeds Philosophial Hall meteorological site", "abstract": "The Leeds Philosophical Hall meteorological site was located at:\r\n\r\nLatitude (decimal degrees):\t53.79943 ( WGS 84 value: 53.79965 )\r\nLongitude (decimal degrees):\t-1.54751 ( WGS 84 value: -1.54905 )\r\nGrid ref:\tSE 298338 (Easting: 429800 Northing: 433800)\r\nElevation:\t42.0 meters\r\n\r\nWith station IDs:\r\nRAIN 076081\r\nMIDAS src_id: 2577" }, "instrument": { "ob_id": 1202, "uuid": "5dd1ca58159640cf9c0f27d40f7062ec", "short_code": "instr", "title": "Raingauge", "abstract": "A raingauge is an instrument used to measure rainfall. Tilting siphon raingauges, Telemetered tipping bucket raingauges, Ordinary raingauges and Climate Data Loggers (CDL) are used by observation stations worldwide before data is used by the Met Office and later accumulated in the MIDAS dataset.\r\n\r\nLinked documentation:\r\nThe Met Office Fact-sheet #17 – Weather Observations on Land (see linked documentation) describes the instrumentation further and includes diagrams of the apparatus set-up. For more information on which instruments are used to collect measurements within specific station networks, the Met Office Surface Data Users Guide, describes the meteorological surface data and how it is obtained in the Met Office Database - MIDAS." }, "relatedTo": { "ob_id": 45820, "uuid": "04435d278d0248809f6d3eda3a170469", "short_code": "acq", "title": "Acquisition for the Leeds Philosophical Society met records", "abstract": "Acquisition for the Leeds Philosophical Society met records" } }, { "ob_id": 14752, "platform": { "ob_id": 45162, "uuid": "b79e1c84903243c2ba2d0b7e3e29d787", "short_code": "plat", "title": "TERRA", "abstract": "Earth Observation System - Terra\r\n\r\n1st flight unit of the EOS programme.\r\nMain mission: land and ocean observation, aerosol.\r\nSubstantial contribution to atmospheric radiation.\r\nSignificant contribution to atmospheric chemistry." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 45973, "uuid": "660ef95d1f094b20b7d9ea730e97b978", "short_code": "acq", "title": "Acquisition for ESA Fire Climate Change Initiative (FireCCI): Harmonised Medium Resolution Burned Area Grid product, version 6.0 (MRBA60H)", "abstract": "Sensors used are derived from existing burned area datasets based on MODIS, VIIRS, OLCI and SLSTR.\r\nPlatforms used are derived from existing burned area datasets based on Terra, Aqua, Sentinel-3 and Suomi-NPP." } }, { "ob_id": 14753, "platform": { "ob_id": 10906, "uuid": "5a1076bffc8c4c5d8a2ff3a4cfb29846", "short_code": "plat", "title": "Aqua Satellite, part of the Earth Observation System Afternoon Constellation (EOS-PM)", "abstract": "Aqua, launched on 4th April 2002, is a polar-orbiting satellite within the Afternoon Constellation (A-Train) that have equator crossings around 13:30 and 01:30 under NASA's Earth Obseration System (EOS). The satellite carries Atmospheric Infrared Sounder (AIRS), Advanced Microwave Sounding Unit (AMSU-A), Humidity Sounder for Brazil (HSB), Advanced Microwave Scanning Radiometer for EOS (AMSR-E), Moderate-Resolution Imaging Spectroradiometer (MODIS) and Clouds and the Earth's Radiant Energy System (CERES), and these collect data on the Earth's atmospheric conditions, snow and ice, sea surface temperature and ocean productivity, and soil moisture. Aqua was the first member launched of a group of satellites termed the Afternoon Constellation, or sometimes the A-Train. " }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 45973, "uuid": "660ef95d1f094b20b7d9ea730e97b978", "short_code": "acq", "title": "Acquisition for ESA Fire Climate Change Initiative (FireCCI): Harmonised Medium Resolution Burned Area Grid product, version 6.0 (MRBA60H)", "abstract": "Sensors used are derived from existing burned area datasets based on MODIS, VIIRS, OLCI and SLSTR.\r\nPlatforms used are derived from existing burned area datasets based on Terra, Aqua, Sentinel-3 and Suomi-NPP." } }, { "ob_id": 14754, "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": 45973, "uuid": "660ef95d1f094b20b7d9ea730e97b978", "short_code": "acq", "title": "Acquisition for ESA Fire Climate Change Initiative (FireCCI): Harmonised Medium Resolution Burned Area Grid product, version 6.0 (MRBA60H)", "abstract": "Sensors used are derived from existing burned area datasets based on MODIS, VIIRS, OLCI and SLSTR.\r\nPlatforms used are derived from existing burned area datasets based on Terra, Aqua, Sentinel-3 and Suomi-NPP." } }, { "ob_id": 14755, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19027, "uuid": "5ff900fe22954a91b678eef0af96758c", "short_code": "instr", "title": "Sentinel 3 Ocean and Land Colour Instrument (OLCI)", "abstract": "Ocean and Land Colour Instrument (OLCI) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 45973, "uuid": "660ef95d1f094b20b7d9ea730e97b978", "short_code": "acq", "title": "Acquisition for ESA Fire Climate Change Initiative (FireCCI): Harmonised Medium Resolution Burned Area Grid product, version 6.0 (MRBA60H)", "abstract": "Sensors used are derived from existing burned area datasets based on MODIS, VIIRS, OLCI and SLSTR.\r\nPlatforms used are derived from existing burned area datasets based on Terra, Aqua, Sentinel-3 and Suomi-NPP." } }, { "ob_id": 14756, "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": 45973, "uuid": "660ef95d1f094b20b7d9ea730e97b978", "short_code": "acq", "title": "Acquisition for ESA Fire Climate Change Initiative (FireCCI): Harmonised Medium Resolution Burned Area Grid product, version 6.0 (MRBA60H)", "abstract": "Sensors used are derived from existing burned area datasets based on MODIS, VIIRS, OLCI and SLSTR.\r\nPlatforms used are derived from existing burned area datasets based on Terra, Aqua, Sentinel-3 and Suomi-NPP." } }, { "ob_id": 14757, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 45973, "uuid": "660ef95d1f094b20b7d9ea730e97b978", "short_code": "acq", "title": "Acquisition for ESA Fire Climate Change Initiative (FireCCI): Harmonised Medium Resolution Burned Area Grid product, version 6.0 (MRBA60H)", "abstract": "Sensors used are derived from existing burned area datasets based on MODIS, VIIRS, OLCI and SLSTR.\r\nPlatforms used are derived from existing burned area datasets based on Terra, Aqua, Sentinel-3 and Suomi-NPP." } }, { "ob_id": 14758, "platform": { "ob_id": 26990, "uuid": "3478f3a96c7e4610a1973a535ee6439e", "short_code": "plat", "title": "Sentinel 3B", "abstract": "Sentinel 3B was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 25th April 2018." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 45973, "uuid": "660ef95d1f094b20b7d9ea730e97b978", "short_code": "acq", "title": "Acquisition for ESA Fire Climate Change Initiative (FireCCI): Harmonised Medium Resolution Burned Area Grid product, version 6.0 (MRBA60H)", "abstract": "Sensors used are derived from existing burned area datasets based on MODIS, VIIRS, OLCI and SLSTR.\r\nPlatforms used are derived from existing burned area datasets based on Terra, Aqua, Sentinel-3 and Suomi-NPP." } } ] }