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=13300
{ "count": 14115, "next": "https://api.catalogue.ceda.ac.uk/api/v3/ipps/?format=api&limit=100&offset=13400", "previous": "https://api.catalogue.ceda.ac.uk/api/v3/ipps/?format=api&limit=100&offset=13200", "results": [ { "ob_id": 13805, "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": 41135, "uuid": "6680613efcce486fa053c8398c22a3a1", "short_code": "acq", "title": "FAAM Flight C359 Acquisition", "abstract": "FAAM Flight C359 Acquisition" } }, { "ob_id": 13806, "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": 41105, "uuid": "5ed75aeba6fa4e82be86fba8f8b75aef", "short_code": "instr", "title": "New Instrument: core-nitrates", "abstract": "New instrument created, more details to follow for instrument core-nitrates" }, "relatedTo": { "ob_id": 41143, "uuid": "1769fff88d574e228525174e8fb78cff", "short_code": "acq", "title": "FAAM Flight C360 Acquisition", "abstract": "FAAM Flight C360 Acquisition" } }, { "ob_id": 13807, "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": 11730, "uuid": "ca3c48564db10ffbdfe37264a4ff16fd", "short_code": "instr", "title": "FAAM Fast Greenhouse Gas analyser", "abstract": "FAAM Fast Greenhouse Gas analyser. FAAM non-core instrument first used in BORTAS project." }, "relatedTo": { "ob_id": 41143, "uuid": "1769fff88d574e228525174e8fb78cff", "short_code": "acq", "title": "FAAM Flight C360 Acquisition", "abstract": "FAAM Flight C360 Acquisition" } }, { "ob_id": 13808, "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": 41143, "uuid": "1769fff88d574e228525174e8fb78cff", "short_code": "acq", "title": "FAAM Flight C360 Acquisition", "abstract": "FAAM Flight C360 Acquisition" } }, { "ob_id": 13809, "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": 41151, "uuid": "7d04931513964573a421eb2f75388d02", "short_code": "acq", "title": "FAAM Flight C361 Acquisition", "abstract": "FAAM Flight C361 Acquisition" } }, { "ob_id": 13810, "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": 41105, "uuid": "5ed75aeba6fa4e82be86fba8f8b75aef", "short_code": "instr", "title": "New Instrument: core-nitrates", "abstract": "New instrument created, more details to follow for instrument core-nitrates" }, "relatedTo": { "ob_id": 41151, "uuid": "7d04931513964573a421eb2f75388d02", "short_code": "acq", "title": "FAAM Flight C361 Acquisition", "abstract": "FAAM Flight C361 Acquisition" } }, { "ob_id": 13811, "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": 11730, "uuid": "ca3c48564db10ffbdfe37264a4ff16fd", "short_code": "instr", "title": "FAAM Fast Greenhouse Gas analyser", "abstract": "FAAM Fast Greenhouse Gas analyser. FAAM non-core instrument first used in BORTAS project." }, "relatedTo": { "ob_id": 41151, "uuid": "7d04931513964573a421eb2f75388d02", "short_code": "acq", "title": "FAAM Flight C361 Acquisition", "abstract": "FAAM Flight C361 Acquisition" } }, { "ob_id": 13812, "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": 11730, "uuid": "ca3c48564db10ffbdfe37264a4ff16fd", "short_code": "instr", "title": "FAAM Fast Greenhouse Gas analyser", "abstract": "FAAM Fast Greenhouse Gas analyser. FAAM non-core instrument first used in BORTAS project." }, "relatedTo": { "ob_id": 41165, "uuid": "1786f50389974b02868810da6208beca", "short_code": "acq", "title": "FAAM Flight C363 Acquisition", "abstract": "FAAM Flight C363 Acquisition" } }, { "ob_id": 13813, "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": 41105, "uuid": "5ed75aeba6fa4e82be86fba8f8b75aef", "short_code": "instr", "title": "New Instrument: core-nitrates", "abstract": "New instrument created, more details to follow for instrument core-nitrates" }, "relatedTo": { "ob_id": 41165, "uuid": "1786f50389974b02868810da6208beca", "short_code": "acq", "title": "FAAM Flight C363 Acquisition", "abstract": "FAAM Flight C363 Acquisition" } }, { "ob_id": 13814, "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": 41165, "uuid": "1786f50389974b02868810da6208beca", "short_code": "acq", "title": "FAAM Flight C363 Acquisition", "abstract": "FAAM Flight C363 Acquisition" } }, { "ob_id": 13815, "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": 41169, "uuid": "056d311b37bb405a83c82405c26a8d09", "short_code": "acq", "title": "FAAM Flight C354 Acquisition", "abstract": "FAAM Flight C354 Acquisition" } }, { "ob_id": 13816, "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": 11730, "uuid": "ca3c48564db10ffbdfe37264a4ff16fd", "short_code": "instr", "title": "FAAM Fast Greenhouse Gas analyser", "abstract": "FAAM Fast Greenhouse Gas analyser. FAAM non-core instrument first used in BORTAS project." }, "relatedTo": { "ob_id": 41169, "uuid": "056d311b37bb405a83c82405c26a8d09", "short_code": "acq", "title": "FAAM Flight C354 Acquisition", "abstract": "FAAM Flight C354 Acquisition" } }, { "ob_id": 13817, "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": 41105, "uuid": "5ed75aeba6fa4e82be86fba8f8b75aef", "short_code": "instr", "title": "New Instrument: core-nitrates", "abstract": "New instrument created, more details to follow for instrument core-nitrates" }, "relatedTo": { "ob_id": 41173, "uuid": "682f76045603459ea8bd645c6c014c7b", "short_code": "acq", "title": "FAAM Flight C352 Acquisition", "abstract": "FAAM Flight C352 Acquisition" } }, { "ob_id": 13818, "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": 41173, "uuid": "682f76045603459ea8bd645c6c014c7b", "short_code": "acq", "title": "FAAM Flight C352 Acquisition", "abstract": "FAAM Flight C352 Acquisition" } }, { "ob_id": 13819, "platform": { "ob_id": 30506, "uuid": "c58202085ddb493988be0fea4e1b065f", "short_code": "plat", "title": "Summit Station Greenland", "abstract": "The Summit Station in Greenland is located (72° 36’N, 38° 25’W, 3250m), atop the Greenland Ice Sheet making it a unique location for a cloud– atmosphere observatory. The station is about 400 km from the east and west coastlines and more than 1,000 km from the southwest and southeast coasts, from which most of the flow impinging on Summit originates, making it a distinctly continental environment. Additionally, the high altitude leads to extremely cold and dry conditions and a relative compression of the troposphere above the ice sheet." }, "instrument": { "ob_id": 41178, "uuid": "cfd7038cc5a643408361cd0550f9456b", "short_code": "instr", "title": "ACE Biral SWS-100 visibility and present weather sensor", "abstract": "ACE Biral SWS-100 visibility and present weather sensor provides horizontal optical range and present weather codes." }, "relatedTo": { "ob_id": 41177, "uuid": "4fc50264b5494f359002e4384dd131c1", "short_code": "acq", "title": "ICECAPS-ACE: Summit Aerosol Cloud Experiment: present weather sensor data taken at Summit Station Greenland", "abstract": "ICECAPS-ACE: Summit Aerosol Cloud Experiment: present weather sensor data taken at Summit Station Greenland" } }, { "ob_id": 13820, "platform": { "ob_id": 27560, "uuid": "0c1d766f72c24a77a2afa835b5eca11e", "short_code": "plat", "title": "Ridge Hill Tall Tower, nr Hereford", "abstract": "Ridge Hill tower is located near Hereford, England.\r\n\r\nThe Ridge Hill tower (RGL) began measuring trace gases (CO2, CH4, N2O and SF6) in March 2012. This site is located at 51.9975 N 2.5400 W, 204 m above sea level, and is 12 miles south of Hereford near the English-Welsh border. The site is registered by the World Meteorological Organisation (WMO) as a Global Atmospheric Watch (GAW) regional station. Measurements are made from two tower levels with one inlet at 45 m and the other inlet at 90 m. There are no major sources of local pollution; the surrounding area is sparsely populated and covered with arable land.\r\nRidge Hill tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41183, "uuid": "6e2bfc4e8cc04b2baba698c8281d6e51", "short_code": "instr", "title": "University of Bristol Picarro G2301 A", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2179, used at Ridge Hill atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique: \r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13821, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41184, "uuid": "047c2462011f45608149d240fcb6cc62", "short_code": "instr", "title": "University of Bristol Picarro G2301 B", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2167, used at Tacolneston atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13822, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41185, "uuid": "9ee1049592c7477a8136bd6b41df32d1", "short_code": "instr", "title": "University of Bristol Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2094, used at Bilsdale atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13823, "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": 41186, "uuid": "df0a514c6cc3485f9e049f4d332089af", "short_code": "instr", "title": "National Physical Laboratory Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2075, used at Heathfield atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13824, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41187, "uuid": "aca6eaf18a7c48ce86d244ec7abf7b48", "short_code": "instr", "title": "University of Bristol LGR 913-0015 A", "abstract": "A Los Gatos Research (LGR) 913-0015 trace gas analyser, serial number: 14-0244, used at Tacolneston atmospheric monitoring station. The analyser uses off-axis integrated cavity output spectroscopy (OA-ICOS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Baer et al. (2002) for details of this technique: https://doi.org/10.1007/s00340-002-0971-z" }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13825, "platform": { "ob_id": 27560, "uuid": "0c1d766f72c24a77a2afa835b5eca11e", "short_code": "plat", "title": "Ridge Hill Tall Tower, nr Hereford", "abstract": "Ridge Hill tower is located near Hereford, England.\r\n\r\nThe Ridge Hill tower (RGL) began measuring trace gases (CO2, CH4, N2O and SF6) in March 2012. This site is located at 51.9975 N 2.5400 W, 204 m above sea level, and is 12 miles south of Hereford near the English-Welsh border. The site is registered by the World Meteorological Organisation (WMO) as a Global Atmospheric Watch (GAW) regional station. Measurements are made from two tower levels with one inlet at 45 m and the other inlet at 90 m. There are no major sources of local pollution; the surrounding area is sparsely populated and covered with arable land.\r\nRidge Hill tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41188, "uuid": "00f1af3b2e4e45b19b6abcf950015001", "short_code": "instr", "title": "University of Bristol GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Ridge Hill atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN11171049) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13826, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41189, "uuid": "b325c041ffef4d32a709ceb9bc7e0506", "short_code": "instr", "title": "University of Bristol GC-ECD B", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Bilsdale atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111012) equipped with a micro-ECD - see Stanley et al. (2018) for\r\nmore instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13827, "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": 41190, "uuid": "7e7265e8c7bc4d3cb188195eeecaaa3f", "short_code": "instr", "title": "National Physical Laboratory GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Heathfield atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111010) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13828, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41191, "uuid": "c00ad9c3663643f1a9aa635e324f2336", "short_code": "instr", "title": "University of Bristol GC-MD A", "abstract": "A gas chromatography multi-detector (GC-MD) trace gas analyser that uses electron capture detection (GC-ECD) to make measurements of N2O and SF6 and a reduction gas analyser (GC-RGA) to make measurements of CO and H2, used at Tacolneston atmospheric monitoring station. This instrument uses an Agilent 6890N GC (serial number: US10335065) equipped with a micro-ECD and a Peak Performer 1 - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13829, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41192, "uuid": "725a35dac1aa4d60b671cc73947d712e", "short_code": "instr", "title": "University of Bristol Medusa GC-MS A", "abstract": "A trace gas analyser that uses gas chromatography-mass spectrometry (GC-MS) with a Medusa pre-concentration unit (serial number: Medusa13) to make measurements of a wide range of greenhouse gases and ozone-depleting substances, used at Tacolneston atmospheric monitoring station. See Miller et al. (2008) for more instrument details: https://doi.org/10.5194/10.1021/ac702084k" }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 13830, "platform": { "ob_id": 30506, "uuid": "c58202085ddb493988be0fea4e1b065f", "short_code": "plat", "title": "Summit Station Greenland", "abstract": "The Summit Station in Greenland is located (72° 36’N, 38° 25’W, 3250m), atop the Greenland Ice Sheet making it a unique location for a cloud– atmosphere observatory. The station is about 400 km from the east and west coastlines and more than 1,000 km from the southwest and southeast coasts, from which most of the flow impinging on Summit originates, making it a distinctly continental environment. Additionally, the high altitude leads to extremely cold and dry conditions and a relative compression of the troposphere above the ice sheet." }, "instrument": { "ob_id": 41212, "uuid": "bbab2decd8e2408da26e16b1a42ad0ad", "short_code": "instr", "title": "ICECAPS-ACE Portable Optical Particle Spectrometer (POPS), unit 0288", "abstract": "Handix Scientific Portable Optical Particle Spectrometer (POPS) instrument (model: POPS-1120, serial number 0288) operated by the ICECAPS-ACE project." }, "relatedTo": { "ob_id": 30511, "uuid": "0f328ee20e7d47c4bfd443a34a2be3a3", "short_code": "acq", "title": "ICECAPS-ACE: Summit Aerosol Cloud Experiment: surface aerosol size distribution (0.25 to 6.5 um diameter) taken at Summit Station Greenland", "abstract": "ICECAPS-ACE: Summit Aerosol Cloud Experiment: surface aerosol size distribution (0.25 to 6.5 um diameter) taken at Summit Station Greenland" } }, { "ob_id": 13831, "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": 41218, "uuid": "722a08d1f95149e2a3e4cf691090a80d", "short_code": "acq", "title": "Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v1 product", "abstract": "Leaf Area Index (LAI) and fraction of Absorbed Photosynthetically Active Radiation (fAPAR) are retrieved from SPOT4/5-VEGETATION1/2 and PROBA-V data." } }, { "ob_id": 13832, "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": 41218, "uuid": "722a08d1f95149e2a3e4cf691090a80d", "short_code": "acq", "title": "Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v1 product", "abstract": "Leaf Area Index (LAI) and fraction of Absorbed Photosynthetically Active Radiation (fAPAR) are retrieved from SPOT4/5-VEGETATION1/2 and PROBA-V data." } }, { "ob_id": 13833, "platform": { "ob_id": 41217, "uuid": "7b560c79ca624939a82eef0c42aa8806", "short_code": "plat", "title": "PROBA-V", "abstract": "The Project for On-Board Autonomy - Végétation (PROBA-V) is the third flight unit of ESA's PROBA series of minisatellites, launched on 7th May 2013. Its mission is to map land cover and vegetation growth globally." }, "instrument": { "ob_id": 41216, "uuid": "6bea7394ae8e441fbf8f1ae3bf97c6dc", "short_code": "instr", "title": "Végétation-P", "abstract": "The Végétation for PROBA (Végétation-P) instrument is a 4-channel VIS/NIR/SWIR radiometer on board ESA's PROBA-V minisatellite, launched on 7th May 2013." }, "relatedTo": { "ob_id": 41218, "uuid": "722a08d1f95149e2a3e4cf691090a80d", "short_code": "acq", "title": "Acquisition process for the ESA Climate Change Initiative Vegetation Parameters LAI and fAPAR v1 product", "abstract": "Leaf Area Index (LAI) and fraction of Absorbed Photosynthetically Active Radiation (fAPAR) are retrieved from SPOT4/5-VEGETATION1/2 and PROBA-V data." } }, { "ob_id": 13834, "platform": { "ob_id": 41242, "uuid": "fb11a9d5bfa84e66b84b07476e0e7ba0", "short_code": "plat", "title": "BN2 Aircraft", "abstract": "Britten Norman Aircraft Islander: The new Islander comes equipped as standard with full IFR glass cockpit, all window seating, enlarged baggage access and a higher All Up Mass than the earlier variants. The aircraft can be equipped with a variety of engine configurations including Lycoming 260hp normally aspirated piston and 300hp fuel injected piston and Rolls Royce 320hp or 400hp turboprop." }, "instrument": { "ob_id": 41241, "uuid": "f06c0357a4ca40bb834c1312705af3c2", "short_code": "instr", "title": "RIEGL LMS-Q780", "abstract": "The RIEGL® LMS-Q780 long-range airborne laser scanner makes use of a powerful laser source, multiple-time-around (MTA) processing, echo digitization and waveform analysis.\r\nThis combination allows the operation at varying flight altitudes and is therefore ideally suited for aerial survey of complex terrain." }, "relatedTo": { "ob_id": 41240, "uuid": "280d67b54d254727abf2de7092d8607a", "short_code": "acq", "title": "Paracou ALS Nov 2019", "abstract": "A LiDAR instrument: RIEGL LMS-Q780 used a minimum pulse density: 15 points/sqm. Lateral overlap between two flight lines: 80%. Scan angle: +/- 30 degrees." } }, { "ob_id": 13835, "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": 5651, "uuid": "34ab3e5c7d8f48c2a6019d4f7d3851fb", "short_code": "instr", "title": "FAAM/BAE systems: Set of several core and/or non-core instruments", "abstract": "Core and non-core instruments on board the FAAM BAe-146 aircraft" }, "relatedTo": { "ob_id": 41267, "uuid": "9e511b13e6af49f693adff84c7281fac", "short_code": "acq", "title": "ACSIS FAAM Merged Chemsitry", "abstract": "Core and non-core chemistry from onboard the FAAM BAE-146 aircraft collected for The North Atlantic Climate System Integrated Study: ACSIS project" } }, { "ob_id": 13836, "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": 41281, "uuid": "5012ef4a54a84c5c81e3b3466d6c4b60", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 363: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13837, "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": 41285, "uuid": "c18d369bd03445d7b6ae4cb2e36b33d3", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 364: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13838, "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": 41289, "uuid": "8d30fd029cda4d51a3e40726cee10bf5", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 366: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13839, "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": 41293, "uuid": "06156e57efc848cb9265bb8dc468d18c", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 367: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13840, "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": 41297, "uuid": "3b3df7d95fd345308d8527430cc1cd2c", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 368: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13841, "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": 41301, "uuid": "219dedd07d1a4d7f998a082407e341b4", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 369: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13842, "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": 41305, "uuid": "37bc4658e8564a9dadc0c8c330779edf", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 370: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13843, "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": 41309, "uuid": "3471de62854747a18a37fbf7ef00ee79", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 371: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13844, "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": 41313, "uuid": "b4d0de195f464ca8a18aaf10ed064c44", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 372: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13845, "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": 41317, "uuid": "84b20f16d3cd4c7ab7ca918208805928", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 375: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13846, "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": 41321, "uuid": "8ed9147742434da999de3312fae844df", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 376: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13847, "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": 41325, "uuid": "9ee6eac765244f119abf36f0cc75e3c1", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 377: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13848, "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": 41329, "uuid": "b3079d85900d4e628be8ef5adccd8b67", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 378: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13849, "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": 41333, "uuid": "b1e5a0b575fc4269888d3f8c02654f77", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 379: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13850, "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": 41337, "uuid": "689d6ab7ebaa4b9a983cc93186130aff", "short_code": "acq", "title": "Acquisition for: BAS-MASIN flight 380: airborne meteorological observations from the Arctic Summer-time Cyclones project", "abstract": "" } }, { "ob_id": 13851, "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": 41365, "uuid": "c046b7e6fa8e43a09a2b3d0f5cb2f23e", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13852, "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": 41365, "uuid": "c046b7e6fa8e43a09a2b3d0f5cb2f23e", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13853, "platform": { "ob_id": 13187, "uuid": "05405d4d4caa47d2889e33b66511fa9b", "short_code": "plat", "title": "Sentinel 2A", "abstract": "Sentinel 2A was launched by the European Space Agency (ESA) to become the second part of the Sentinel series. The satellite was launched on 23rd June 2015." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 41365, "uuid": "c046b7e6fa8e43a09a2b3d0f5cb2f23e", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13854, "platform": { "ob_id": 25277, "uuid": "0bbb6de9c89b403aba5a2aacf53ec19e", "short_code": "plat", "title": "Sentinel 2B", "abstract": "Sentinel 2B was launched by the European Space Agency (ESA) to become the second part of the Sentinel series alongside Sentinel 2A. The satellite was launched on 7th March 2016." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 41365, "uuid": "c046b7e6fa8e43a09a2b3d0f5cb2f23e", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Amazonia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13855, "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": 41366, "uuid": "64d5cf8a552647b4b16ff7d1c4ae2621", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13856, "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": 41366, "uuid": "64d5cf8a552647b4b16ff7d1c4ae2621", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13857, "platform": { "ob_id": 13187, "uuid": "05405d4d4caa47d2889e33b66511fa9b", "short_code": "plat", "title": "Sentinel 2A", "abstract": "Sentinel 2A was launched by the European Space Agency (ESA) to become the second part of the Sentinel series. The satellite was launched on 23rd June 2015." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 41366, "uuid": "64d5cf8a552647b4b16ff7d1c4ae2621", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13858, "platform": { "ob_id": 25277, "uuid": "0bbb6de9c89b403aba5a2aacf53ec19e", "short_code": "plat", "title": "Sentinel 2B", "abstract": "Sentinel 2B was launched by the European Space Agency (ESA) to become the second part of the Sentinel series alongside Sentinel 2A. The satellite was launched on 7th March 2016." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 41366, "uuid": "64d5cf8a552647b4b16ff7d1c4ae2621", "short_code": "acq", "title": "Aquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1", "abstract": "The ESA CCI High Resolution Land Cover Map for Siberia at 10m spatial resolution for 2019, v1 was derived from Sentinel-1 and Sentinel-2 data." } }, { "ob_id": 13859, "platform": { "ob_id": 8246, "uuid": "e9c4a76ba5b64ede82a20d7d69da47a2", "short_code": "plat", "title": "Landsat 5", "abstract": "A nearly identical satellite to Landsat 4, Landsat 5 was launched as part of the Landsat programme in March 1984 and was operational until June 2013. As Landsat 4, it carried Thematic Mapper (TM) and MultiSpectral Scanner (MSS) instruments." }, "instrument": { "ob_id": 8581, "uuid": "b78aa577f5a046889b3030ba63bd66f9", "short_code": "instr", "title": "Thematic Mapper (LS5)", "abstract": "The Landsat5 Thematic Mapper is a a nadir-viewing, seven-band multi-spectral scanning radiometer instrument, almost identical to the LS4 TM. It was launched in 1984 and was in operation until at least April 2003. The Landsat TM sensor is capable of providing low to medium-resolution imaging information of the Earth's surface. The TM data are scanned simultaneously in seven spectral bands. Band 6 scans thermal (heat) infrared radiation. Spectral and spatial characteristics of these bands are shown below:\r\n\r\nBand no. 1\r\nSpectral range: .450 to .520 micrometres Ground resolution: 30 m\r\nBand no. 2\r\nSpectral range: .520 to .600 micrometres Ground resolution: 30 m\r\nBand no. 3\r\nSpectral range: .630 to .690 micrometres Ground resolution: 30 m\r\nBand no. 4 \r\nSpectral range: .775 to .900 micrometres Ground resolution: 30 m\r\nBand no. 5\r\nSpectral range: 1.550 to 1.750 micrometres Ground resolution: 30 m \r\nBand no. 6 \r\nSpectral range: 10.40 to 12.50 micrometres Ground resolution: 120 m\r\nBand no. 7\r\nSpectral range: 2.080 to 2.350 micrometres Ground resolution: 30 m" }, "relatedTo": { "ob_id": 41367, "uuid": "5ece13aea08247f2945579c11d30919d", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Amazonia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13860, "platform": { "ob_id": 8256, "uuid": "385d8284709749b9a29d33c07670c4fd", "short_code": "plat", "title": "Landsat 7", "abstract": "Landsat 7 was launched as a continuation of the Landsat programme on 15th April 1999 and is still operational as of July 2014. A three-axis attitude control subsystem stabilizes the satellite and keeps the instrument pointed toward Earth to within 0.05 degrees. The LANDSAT World-Wide-Reference system catalogues the worlds land mass into 57,784 scenes, each 115 miles (183 kilometres) wide by 106 miles (170 kilometres) long.\r\n\r\nLaunch date: 15/04/1999\r\nStatus/projected mission lifetime: 5 years +\r\nOrbit parameters: near circular\r\nNominal altitude: 705 km\r\nOrbit type:\t near-polar, sun-synchronous\r\nInclination: 98.2 degrees\r\nRepeat period: 16 days\r\nEquatorial crossing time: 10.00 local time (descending node)\r\nSwath width: 183 km\r\nResolution: 15 - 60 m \r\nSpecial features: Panchromatic band, thermal band with 2 gain settings" }, "instrument": { "ob_id": 8257, "uuid": "dfc450e6a1d54b40b8927c7d0de2de21", "short_code": "instr", "title": "Enhanced Thematic Mapper Plus (ETM+)", "abstract": "The Enhanced Thematic Mapper Plus (ETM+) instrument is a fixed 'whisk-broom', eight-band, multispectral scanning radiometer capable of providing high-resolution imaging information of the Earth's surface onboard Landsat 7. The main improvement from the Landsat 4/5 Thematic Mappers (TMs) is the addition of a panchromatic band with 15 m spatial resolution.\r\nSpectral and spatial characteristics of these bands are shown below.\r\n\r\nBand no. 1\r\nSpectral range .450 to .515 micrometres Ground resolution: 30 m\r\nBand no. 2\r\nSpectral range .525 to .605 micrometres Ground resolution: 30 m\r\nBand no. 3\r\nSpectral range .630 to .690 micrometres Ground resolution: 30 m\r\nBand no. 4\r\nSpectral range .775 to .900 micrometres Ground resolution: 30 m\r\nBand no. 5\r\nSpectral range 1.550 to 1.750 micrometres Ground resolution: 30 m\r\nBand no. 6\r\nSpectral range 10.40 to 12.50 micrometres Ground resolution: 60 m\r\nBand no. 7\r\nSpectral range 2.090 to 2.35 micrometres Ground resolution: 30 m\r\nBand no. 8\r\nSpectral range .520 to .900 micrometres Ground resolution: 15 m" }, "relatedTo": { "ob_id": 41367, "uuid": "5ece13aea08247f2945579c11d30919d", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Amazonia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13861, "platform": { "ob_id": 12358, "uuid": "0ed62573c69a4f8ab46ea898ef0650a1", "short_code": "plat", "title": "Landsat 8", "abstract": "The Landsat 8 satellite was launched on 11th February 2013. It is a joint collaboration between the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS). It was initially named the Landsat Continuity Mission but was later renamed Landsat 8. The Landsat 8 mission provides 16 bit high quality land surface data. It is offset by 8 days from Landsat 7 has a 16 day repeat cycle. The Landsat 8 payload consists of the Operational Land Imager (OLI) and the Thermal Infrared Sensor (TIRS). The OLI provides multispectral data in the visible, near infrared and shortwave infrared as well as a panchromatic band. The TIRS instrument provides data in two thermal infrared bands." }, "instrument": { "ob_id": 12365, "uuid": "363aa51ef6c940a09daf90792856f8cd", "short_code": "instr", "title": "Landsat 8 Operational Land Imager (OLI) and Thermal InfraRed Sensor (TIRS)", "abstract": "The Operational Land Imager (OLI) and Thermal InfraRed Sensor (TIRS) are instruments on board the Landsat 8 platform provides multispectral images of the Earth's surface in the visible, near infrared, shortwave infrared and thermal infrared. Landsat 8 is a joint project beween the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS)." }, "relatedTo": { "ob_id": 41367, "uuid": "5ece13aea08247f2945579c11d30919d", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Amazonia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13862, "platform": { "ob_id": 7805, "uuid": "d21630e98aa74a4f8406743b74e5d076", "short_code": "plat", "title": "ERS-1", "abstract": "The European Remote Sensing satellite 1 (ERS1) was launched on 17th July 1991 and was the first flight of the RSA ERS program. The payload included the ATSR, AMU-SAR , AMI-SCAT, LRR PRARE and RA instruments. End of mission for ERS1 was 10th March 2000." }, "instrument": { "ob_id": 32747, "uuid": "bb030f960b934d0ba23dccacc4428eee", "short_code": "instr", "title": "AMI-SAR", "abstract": "A Synthetic Aperture Radar (SAR) was launched onboard European Remote Sensing Satellite 1 (ERS-1) in July 1991 and ERS-2 in April 1995 as part of the Active Microwave Instrument (AMI)." }, "relatedTo": { "ob_id": 41367, "uuid": "5ece13aea08247f2945579c11d30919d", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Amazonia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13863, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 32747, "uuid": "bb030f960b934d0ba23dccacc4428eee", "short_code": "instr", "title": "AMI-SAR", "abstract": "A Synthetic Aperture Radar (SAR) was launched onboard European Remote Sensing Satellite 1 (ERS-1) in July 1991 and ERS-2 in April 1995 as part of the Active Microwave Instrument (AMI)." }, "relatedTo": { "ob_id": 41367, "uuid": "5ece13aea08247f2945579c11d30919d", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Amazonia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13864, "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": 41367, "uuid": "5ece13aea08247f2945579c11d30919d", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Amazonia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13865, "platform": { "ob_id": 8246, "uuid": "e9c4a76ba5b64ede82a20d7d69da47a2", "short_code": "plat", "title": "Landsat 5", "abstract": "A nearly identical satellite to Landsat 4, Landsat 5 was launched as part of the Landsat programme in March 1984 and was operational until June 2013. As Landsat 4, it carried Thematic Mapper (TM) and MultiSpectral Scanner (MSS) instruments." }, "instrument": { "ob_id": 8581, "uuid": "b78aa577f5a046889b3030ba63bd66f9", "short_code": "instr", "title": "Thematic Mapper (LS5)", "abstract": "The Landsat5 Thematic Mapper is a a nadir-viewing, seven-band multi-spectral scanning radiometer instrument, almost identical to the LS4 TM. It was launched in 1984 and was in operation until at least April 2003. The Landsat TM sensor is capable of providing low to medium-resolution imaging information of the Earth's surface. The TM data are scanned simultaneously in seven spectral bands. Band 6 scans thermal (heat) infrared radiation. Spectral and spatial characteristics of these bands are shown below:\r\n\r\nBand no. 1\r\nSpectral range: .450 to .520 micrometres Ground resolution: 30 m\r\nBand no. 2\r\nSpectral range: .520 to .600 micrometres Ground resolution: 30 m\r\nBand no. 3\r\nSpectral range: .630 to .690 micrometres Ground resolution: 30 m\r\nBand no. 4 \r\nSpectral range: .775 to .900 micrometres Ground resolution: 30 m\r\nBand no. 5\r\nSpectral range: 1.550 to 1.750 micrometres Ground resolution: 30 m \r\nBand no. 6 \r\nSpectral range: 10.40 to 12.50 micrometres Ground resolution: 120 m\r\nBand no. 7\r\nSpectral range: 2.080 to 2.350 micrometres Ground resolution: 30 m" }, "relatedTo": { "ob_id": 41368, "uuid": "b0d7e8aba72f4aa98b7436a6ced802ad", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Siberia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13866, "platform": { "ob_id": 8256, "uuid": "385d8284709749b9a29d33c07670c4fd", "short_code": "plat", "title": "Landsat 7", "abstract": "Landsat 7 was launched as a continuation of the Landsat programme on 15th April 1999 and is still operational as of July 2014. A three-axis attitude control subsystem stabilizes the satellite and keeps the instrument pointed toward Earth to within 0.05 degrees. The LANDSAT World-Wide-Reference system catalogues the worlds land mass into 57,784 scenes, each 115 miles (183 kilometres) wide by 106 miles (170 kilometres) long.\r\n\r\nLaunch date: 15/04/1999\r\nStatus/projected mission lifetime: 5 years +\r\nOrbit parameters: near circular\r\nNominal altitude: 705 km\r\nOrbit type:\t near-polar, sun-synchronous\r\nInclination: 98.2 degrees\r\nRepeat period: 16 days\r\nEquatorial crossing time: 10.00 local time (descending node)\r\nSwath width: 183 km\r\nResolution: 15 - 60 m \r\nSpecial features: Panchromatic band, thermal band with 2 gain settings" }, "instrument": { "ob_id": 8257, "uuid": "dfc450e6a1d54b40b8927c7d0de2de21", "short_code": "instr", "title": "Enhanced Thematic Mapper Plus (ETM+)", "abstract": "The Enhanced Thematic Mapper Plus (ETM+) instrument is a fixed 'whisk-broom', eight-band, multispectral scanning radiometer capable of providing high-resolution imaging information of the Earth's surface onboard Landsat 7. The main improvement from the Landsat 4/5 Thematic Mappers (TMs) is the addition of a panchromatic band with 15 m spatial resolution.\r\nSpectral and spatial characteristics of these bands are shown below.\r\n\r\nBand no. 1\r\nSpectral range .450 to .515 micrometres Ground resolution: 30 m\r\nBand no. 2\r\nSpectral range .525 to .605 micrometres Ground resolution: 30 m\r\nBand no. 3\r\nSpectral range .630 to .690 micrometres Ground resolution: 30 m\r\nBand no. 4\r\nSpectral range .775 to .900 micrometres Ground resolution: 30 m\r\nBand no. 5\r\nSpectral range 1.550 to 1.750 micrometres Ground resolution: 30 m\r\nBand no. 6\r\nSpectral range 10.40 to 12.50 micrometres Ground resolution: 60 m\r\nBand no. 7\r\nSpectral range 2.090 to 2.35 micrometres Ground resolution: 30 m\r\nBand no. 8\r\nSpectral range .520 to .900 micrometres Ground resolution: 15 m" }, "relatedTo": { "ob_id": 41368, "uuid": "b0d7e8aba72f4aa98b7436a6ced802ad", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Siberia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13867, "platform": { "ob_id": 12358, "uuid": "0ed62573c69a4f8ab46ea898ef0650a1", "short_code": "plat", "title": "Landsat 8", "abstract": "The Landsat 8 satellite was launched on 11th February 2013. It is a joint collaboration between the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS). It was initially named the Landsat Continuity Mission but was later renamed Landsat 8. The Landsat 8 mission provides 16 bit high quality land surface data. It is offset by 8 days from Landsat 7 has a 16 day repeat cycle. The Landsat 8 payload consists of the Operational Land Imager (OLI) and the Thermal Infrared Sensor (TIRS). The OLI provides multispectral data in the visible, near infrared and shortwave infrared as well as a panchromatic band. The TIRS instrument provides data in two thermal infrared bands." }, "instrument": { "ob_id": 12365, "uuid": "363aa51ef6c940a09daf90792856f8cd", "short_code": "instr", "title": "Landsat 8 Operational Land Imager (OLI) and Thermal InfraRed Sensor (TIRS)", "abstract": "The Operational Land Imager (OLI) and Thermal InfraRed Sensor (TIRS) are instruments on board the Landsat 8 platform provides multispectral images of the Earth's surface in the visible, near infrared, shortwave infrared and thermal infrared. Landsat 8 is a joint project beween the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS)." }, "relatedTo": { "ob_id": 41368, "uuid": "b0d7e8aba72f4aa98b7436a6ced802ad", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Siberia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13868, "platform": { "ob_id": 7805, "uuid": "d21630e98aa74a4f8406743b74e5d076", "short_code": "plat", "title": "ERS-1", "abstract": "The European Remote Sensing satellite 1 (ERS1) was launched on 17th July 1991 and was the first flight of the RSA ERS program. The payload included the ATSR, AMU-SAR , AMI-SCAT, LRR PRARE and RA instruments. End of mission for ERS1 was 10th March 2000." }, "instrument": { "ob_id": 32747, "uuid": "bb030f960b934d0ba23dccacc4428eee", "short_code": "instr", "title": "AMI-SAR", "abstract": "A Synthetic Aperture Radar (SAR) was launched onboard European Remote Sensing Satellite 1 (ERS-1) in July 1991 and ERS-2 in April 1995 as part of the Active Microwave Instrument (AMI)." }, "relatedTo": { "ob_id": 41368, "uuid": "b0d7e8aba72f4aa98b7436a6ced802ad", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Siberia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13869, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 32747, "uuid": "bb030f960b934d0ba23dccacc4428eee", "short_code": "instr", "title": "AMI-SAR", "abstract": "A Synthetic Aperture Radar (SAR) was launched onboard European Remote Sensing Satellite 1 (ERS-1) in July 1991 and ERS-2 in April 1995 as part of the Active Microwave Instrument (AMI)." }, "relatedTo": { "ob_id": 41368, "uuid": "b0d7e8aba72f4aa98b7436a6ced802ad", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Siberia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13870, "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": 41368, "uuid": "b0d7e8aba72f4aa98b7436a6ced802ad", "short_code": "acq", "title": "Acquisition for the ESA High Resolution Land Cover Climate Change Initiative (High_Resolution_Land_Cover_cci): High Resolution Land Cover and Land Cover Change Maps for Siberia at 30m spatial resolution, 1990-2019, v1", "abstract": "The product has been produced using data from Landsat-5/7/8 for optical data, and ERS-1, ERS-2, ENVISAT-ASAR for SAR imagery." } }, { "ob_id": 13871, "platform": { "ob_id": 41409, "uuid": "451f84ee6e894ad1a1c9217a765e1812", "short_code": "plat", "title": "Plymouth Marine Laboratory", "abstract": "Plymouth Marine Laboratory (PML) is located in the city of Plymouth, England. It is a marine research organization and registered charity. It is a partner of the UK Research & Innovation's Natural Environment Research Council.\r\nAddress is Plymouth Marine Laboratory, Prospect Place, Plymouth, Devon, UK, PL1 3DH\r\nLatitude: 50.3659 N, Longitude: 4.1477 W\r\nInstruments were situated on the roof of the building at height: 60 m ASL" }, "instrument": { "ob_id": 41410, "uuid": "4f6054d93c704292b3d6147a0be0d244", "short_code": "instr", "title": "PML Aerosol Sunphotometer", "abstract": "Instrument(s): PREDE POM01-L sunphotometer. June 2001 - March 2008 (Unknown serial number); August 2009 - December 2023 Serial Number PS08015\r\nManufacturer / Distributor: Kipp and Zonen (UK)\r\nDate of installation: 2001 - 2023\r\n\r\nLocation of instrument: Roof of PML Prospect Place building\r\nAddress: PML, Prospect Place, Plymouth, Devon, UK, PL1 3DH\r\nLatitude: 50.3659 N\r\nLongitude: 4.1477 W\r\nHeight: 60 m ASL\r\n\r\nWebsite: https://www.westernchannelobservatory.org.uk/sunphotometer/index.php\r\n\r\nAligned Funded projects:\r\n1) NERC National Capability: Western Channel Observatory (https://www.westernchannelobservatory.org.uk)\r\n2) NERC Cross Centre National Capability: ACSIS\r\n\r\nAlso associated with NASA AERONET and CIMEL sunphotometer sited at Rame Head (until 2013) and PML (since 2014)\r\nhttps://aeronet.gsfc.nasa.gov/new_web/draw_map_display_aod_v3.html and search Rame_Head\r\n\r\nDescription of operation:\r\nThe instrument operates at 7 wavelengths (315, 400, 500, 670, 870, 940 and 1020nm) and scans at pre-set angles away from the solar disk to determine, using the inversion code of Nakajima et al. (2006), various properties of tiny particles called aerosols within the atmospheric column. From these measurements useful atmospheric aerosol parameters such as the Aerosol Optical Thickness (AOT), aerosol size distribution and single scattering albedo can be calculated. Marine aerosols tend to be bigger (D > 1µm) than those generated over the land (0.01 < D < 1µm) and are of a different chemical composition; marine aerosols are salt particles whereas terrestrial aerosols are sulphate compounds." }, "relatedTo": { "ob_id": 41412, "uuid": "cb5533c995684bb99bf34bbc4b8be772", "short_code": "acq", "title": "Aquisition for PML-sunphotometer for ACSIS", "abstract": "Measurements of spectral aerosol optical thickness (tau), single scattering albedo (SSA), refractive index (RI), and size distribution of aerosols for preset aerosol diameters (um - microns) made using Kipp and Zonen (UK) PREDE POM01-L sunphotometers between June 2001 - December 2023 for the Western Channel Observatory (https://www.westernchannelobservatory.org.uk) and The North Atlantic Climate System Integrated Study (ACSIS)." } }, { "ob_id": 13872, "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": 41418, "uuid": "5d16bccb807e4ed4b11d8001e60c0f19", "short_code": "acq", "title": "Altimetry data acquired from the Radar Altimeter 2 (RA-2) instrument on Envisat", "abstract": "Altimetry data has been acquired from the Radar Altimeter 2 (RA-2) instrument onboard ESA's Envisat satellite platform" } }, { "ob_id": 13873, "platform": { "ob_id": 41424, "uuid": "bde1ac4768e8405fb7fc6866e9db51e0", "short_code": "plat", "title": "Kiva-2 site at Langmuir Laboratory for Atmospheric Research", "abstract": "Kiva-2 site at the Langmuir Laboratory for Atmospheric Research was used as a ground station for meteorological measurements during the Deep Convective Microphysics Experiment (DCMEX) project. \r\n\r\nThe Kiva-2 site is at South Baldy Peak (33.9913N, 107.1880W, ~3287 m altitude), Magdalena Mountains, New Mexico.\r\n\r\nLangmuir Laboratory was built by New Mexico Tech in 1963, and is located at an elevation of 3,287 m in the Magdalena Mountains, New Mexico, close to the Magdalena Mountain Range." }, "instrument": { "ob_id": 41428, "uuid": "df4affbf5fa14011a85c4232cbdc2b15", "short_code": "instr", "title": "University of Manchester: Vaisalla WTX536 Meteorological Station", "abstract": "Vaisalla WTX536 Met Station, was installed on the aerosol sampling mast at Kiva-2 laboratory, Magdalena Mountains, New Mexico. It was placed on the aerosol sampling mast to provide collocated wind speed, wind direction, temperature, relative humidity, pressure, rainfall rate, and hail rate.\r\n\r\nIt was used during the Deep Convective Microphysics Experiment (DCMEX) project. \r\nThe meteorological station is supported by the University of Manchester scientists." }, "relatedTo": { "ob_id": 41430, "uuid": "04efe35bdce34d6d82904fe10fbe8e00", "short_code": "acq", "title": "Aquisition for DCMEX ground-based Meteorological measurement", "abstract": "Meteorological data from two ground meteorological stations. A Vaisalla WTX536 meteorological station was installed at the Kiva-2 laboratory. It was placed on the aerosol sampling mast to provide collocated wind speed, wind direction, temperature, relative humidity, pressure, rainfall rate, and hail rate. A second meteorological station, a Gill MaxiMet GMX600 Met Station, was installed at the Langmuir Laboratory next to the Digitel aerosol filter sampler and provides measurements of wind speed, wind direction, temperature, humidity, pressure, and precipitation rate. The meteorological stations are supported by the University of Manchester scientists." } }, { "ob_id": 13874, "platform": { "ob_id": 41423, "uuid": "d513ac0771e54d7abd9acfc39a366fd0", "short_code": "plat", "title": "Langmuir Laboratory for Atmospheric Research", "abstract": "The Langmuir Laboratory for Atmospheric Research was used as a ground station for meteorological measurements during the Deep Convective Microphysics Experiment (DCMEX) project. \r\n\r\nIt was built by New Mexico Tech in 1963, and is located at an elevation of 3,240 m (10,630 ft) in the Magdalena Mountains, New Mexico, close to the Magdalena Mountain Range.\r\n\r\nThe Langmuir Laboratory main building location is at 33.97495N, 107.18100W, ~3255 m altitude." }, "instrument": { "ob_id": 41426, "uuid": "f5b1cefdfeb0473f955608e16debdece", "short_code": "instr", "title": "University of Manchester: Gill MaxiMet GMX600 Meteorological Station", "abstract": "Gill MaxiMet GMX600 Met Station, was installed at the Langmuir Laboratory next to the Digitel aerosol filter sampler and provides measurements of wind speed, wind direction, temperature, humidity, pressure, and precipitation rate. \r\nIt was used during the Deep Convective Microphysics Experiment (DCMEX) project. \r\nThe meteorological station is supported by the University of Manchester scientists." }, "relatedTo": { "ob_id": 41430, "uuid": "04efe35bdce34d6d82904fe10fbe8e00", "short_code": "acq", "title": "Aquisition for DCMEX ground-based Meteorological measurement", "abstract": "Meteorological data from two ground meteorological stations. A Vaisalla WTX536 meteorological station was installed at the Kiva-2 laboratory. It was placed on the aerosol sampling mast to provide collocated wind speed, wind direction, temperature, relative humidity, pressure, rainfall rate, and hail rate. A second meteorological station, a Gill MaxiMet GMX600 Met Station, was installed at the Langmuir Laboratory next to the Digitel aerosol filter sampler and provides measurements of wind speed, wind direction, temperature, humidity, pressure, and precipitation rate. The meteorological stations are supported by the University of Manchester scientists." } }, { "ob_id": 13875, "platform": { "ob_id": 41424, "uuid": "bde1ac4768e8405fb7fc6866e9db51e0", "short_code": "plat", "title": "Kiva-2 site at Langmuir Laboratory for Atmospheric Research", "abstract": "Kiva-2 site at the Langmuir Laboratory for Atmospheric Research was used as a ground station for meteorological measurements during the Deep Convective Microphysics Experiment (DCMEX) project. \r\n\r\nThe Kiva-2 site is at South Baldy Peak (33.9913N, 107.1880W, ~3287 m altitude), Magdalena Mountains, New Mexico.\r\n\r\nLangmuir Laboratory was built by New Mexico Tech in 1963, and is located at an elevation of 3,287 m in the Magdalena Mountains, New Mexico, close to the Magdalena Mountain Range." }, "instrument": { "ob_id": 2941, "uuid": "0250f4670abb4b39838482d44a5c5a10", "short_code": "instr", "title": "University of Manchester/UFAM (Universities' Facility for Atmospheric Measurement): Grimm Optical Particle Counter - formerly umist-grimm", "abstract": "GRIMM 1.108 dust monitor run by the University of Manchester measures the size resolved number concentration per cubic centimetre of particles in the size range of 0.3 to 20 microns (optical). By summing up the total number over all sizes, the total number concentration can be derived. The unit also has several audible alarms when operational parameters are exceeded. The unit is mains powered, but also comes complete with a battery. The unit is completely controllable from the front panel, although data logging is normally done via a PC.\r\n\r\nThis instrument measures the size resolved number concentration per cubic centimetre of particles in the size range of 0.3 to 20 microns (optical). By summing up the total number over all sizes, the total number concentration can be derived. The unit also has several audible alarms when operational parameters are exceeded." }, "relatedTo": { "ob_id": 41439, "uuid": "cbd2046e1bf041b2824fe2124105cb05", "short_code": "acq", "title": "Aquisition for DCMEX ground-based aerosol measurement", "abstract": "Aerosol number-size distribution data collected by a GRIMM Optical Particle Counter (OPC) model 1.108 installed at the Langmuir Laboratory Kiva-2 site (33.9913°N, 107.1880°W) in the Magdalena Mountains, New Mexico between July and August 2022 as part of the Deep Convective Microphysics Experiment (DCMEX) project." } }, { "ob_id": 13877, "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": 41452, "uuid": "02c3a6274e8846d8a6b84389acfde987", "short_code": "acq", "title": "Acquisition Process for the ESA Fire Climate Change Initiative (Fire_cci): Sentinel-3 SYN Burned Area products, version 1.1", "abstract": "Products were derived from the Sentinel-3 SYN product, which is based on data from the OLCI and SLSTR instruments on Sentinel-3A and Sentinel-3B." } }, { "ob_id": 13878, "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": 41452, "uuid": "02c3a6274e8846d8a6b84389acfde987", "short_code": "acq", "title": "Acquisition Process for the ESA Fire Climate Change Initiative (Fire_cci): Sentinel-3 SYN Burned Area products, version 1.1", "abstract": "Products were derived from the Sentinel-3 SYN product, which is based on data from the OLCI and SLSTR instruments on Sentinel-3A and Sentinel-3B." } }, { "ob_id": 13879, "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": 41452, "uuid": "02c3a6274e8846d8a6b84389acfde987", "short_code": "acq", "title": "Acquisition Process for the ESA Fire Climate Change Initiative (Fire_cci): Sentinel-3 SYN Burned Area products, version 1.1", "abstract": "Products were derived from the Sentinel-3 SYN product, which is based on data from the OLCI and SLSTR instruments on Sentinel-3A and Sentinel-3B." } }, { "ob_id": 13880, "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": 41452, "uuid": "02c3a6274e8846d8a6b84389acfde987", "short_code": "acq", "title": "Acquisition Process for the ESA Fire Climate Change Initiative (Fire_cci): Sentinel-3 SYN Burned Area products, version 1.1", "abstract": "Products were derived from the Sentinel-3 SYN product, which is based on data from the OLCI and SLSTR instruments on Sentinel-3A and Sentinel-3B." } }, { "ob_id": 13881, "platform": { "ob_id": 40268, "uuid": "4de9d15d226940e98294ab0793d2926a", "short_code": "plat", "title": "London Air Quality Supersite (LAQS)", "abstract": "London Air Quality Supersite (LAQS) is used in the OSCA and QUANT projects. It hosts a large suite of air quality measuring instruments for long term monitoring and for intensive operation periods. LAQS site is an urban background location.\r\nAddress London Honor Oak Park, King's College Sports Ground, Brockley Rise, London, SE23 1NW\r\n\r\nUK-AIR ID: UKA00656\r\nEU Site ID: GB1098A\r\nAltitude (metres): 36\r\nEnvironment Type: Urban Background\r\nGovernment Region: Greater London\r\nEasting/Northing: 536473, 174125\r\nLatitude/Longitude: 51.449674, -0.037418" }, "instrument": { "ob_id": 41387, "uuid": "4bde468896de471ba12f8523706f133a", "short_code": "instr", "title": "LHOP: Sonic Windmaster", "abstract": "Gill Sonic Windmaster instruments mounted at 16m at the London Honor Oak Park Air Quality Supersite (LHOP) measures wind speed and direction." }, "relatedTo": { "ob_id": 41386, "uuid": "cb199ce0e0244f449514ab95b28ab039", "short_code": "acq", "title": "Acquisition for: Wind speed and direction data from Gill sonic windmaster instrument at London Honor Oak Park", "abstract": "Wind speed and direction data from Gill sonic windmaster instrument at London Honor Oak Park for the OSCA project" } }, { "ob_id": 13886, "platform": { "ob_id": 30014, "uuid": "2e7f841f29304e7986e102cfecda969c", "short_code": "plat", "title": "TOPEX/Poseidon", "abstract": "The TOPEX-Posiedon (Topography Experiment - Positioning,Ocean,Solid Earth, Ice Dynamics, Orbital Navigator) satellite was operated by NASA and CNES, between Aug 1992 and October 2005." }, "instrument": { "ob_id": 30015, "uuid": "66ebb2b90a2c42d2a2e86e9b05e6b0d7", "short_code": "instr", "title": "SSALT", "abstract": "The Single-frequency Solid-state Altimeter (SSALT) was flown on the TOPEX-Poseidon satellite to study ocean topography, significant wave height and wind speed on the sea surface" }, "relatedTo": { "ob_id": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13887, "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": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13888, "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": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13889, "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": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13890, "platform": { "ob_id": 41465, "uuid": "ae51e187356a42d5b4e75cf96b3c2710", "short_code": "plat", "title": "Sentinel-6A", "abstract": "The Sentinel-6A satellite misson" }, "instrument": { "ob_id": 41466, "uuid": "1e4e6a00ef6640fea9846489896c2c61", "short_code": "instr", "title": "Poseidon-4", "abstract": "The Poseidon-4 instrument is flown on the Sentinel-6 satellite" }, "relatedTo": { "ob_id": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13891, "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": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13892, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 30024, "uuid": "19bf6bae815c412fa2374e2513d25af5", "short_code": "instr", "title": "RA", "abstract": "The RA (Radar Altimeter) instrument was flown on the ERS-1 and ERS02 satellites. It's a single frequency (13.8 GHz) radar altimeter." }, "relatedTo": { "ob_id": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13893, "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": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13894, "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": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13895, "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": 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": 41464, "uuid": "6b870fe612644bfc878bc7605d22bdf8", "short_code": "acq", "title": "Acquisition Process for the ESA River Discharge Climate Change Initiative (RD_cci): Water Level product, v1.1", "abstract": "The water level product was derived from the following nadir-viewing satellite radar altimeter missions : ERS-2, Envisat, Saral, Topex-Poseidon, Jason-1, Jason-2, Jason-3, Sentinel-3A/B, and Sentinel-6" } }, { "ob_id": 13897, "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": 41495, "uuid": "ac9db45687b54ee2b62f66e6cd823411", "short_code": "instr", "title": "QUANT Urban Sciences Atmos", "abstract": "Low-cost instrument (make: Urban Sciences, model Atmos) measuring air quality as part of the QUANT Wider Participation study. Has sensors that measure: Temperature, PM2.5, Relative Humidity, PM10, PM1.\r\n\r\nSerial Numbers: \r\nE098060E73E3 \r\nE098060F044A" }, "relatedTo": { "ob_id": 40267, "uuid": "0f681d275cf1425c98943ff3d58f4915", "short_code": "acq", "title": "Acquisition for QUANT", "abstract": "Air quality measurements from 52 commercial low-cost devices at three UK urban monitoring sites over a period of 3 years for the QUANT project" } }, { "ob_id": 13898, "platform": { "ob_id": 41505, "uuid": "b400093661b84be48a78e61851a76e91", "short_code": "plat", "title": "Birmingham Air Quality Supersite (BAQS)", "abstract": "An urban air quality supersites in Birmingham, UK equipped with a suite of permanent and visiting instruments to deliver comprehensive, continuous and long-term measurements of atmospheric composition.\r\nIt is located in Edgebaston, Birmingham, UK at 52.46 N, -1.93 E and 149 m altitude." }, "instrument": { "ob_id": 41506, "uuid": "769edb50fca14da09e8f31a93f396128", "short_code": "instr", "title": "BAQS: Thermo Model 49i Ozone Analyzer", "abstract": "Birmingham Air Quality Supersite instrument to measure the amount of ozone in ambient air with the dual-cell, UV photometric. Thermo Scientific Model 49i Ozone Analyzer." }, "relatedTo": { "ob_id": 41504, "uuid": "a67b799f60624060bc91eb14e493cbf8", "short_code": "acq", "title": "Acquisition for: Ozone Abundance Data from Model 49i Ozone Analyzer Instrument at Birmingham Air Quality Site 2019-22", "abstract": "Acquisition for: Ozone Abundance Data from Model 49i Ozone Analyzer Instrument at Birmingham Air Quality Site 2019-22" } }, { "ob_id": 13899, "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": 41512, "uuid": "b5f22ec4b1294d3187c9dece3a0f7466", "short_code": "acq", "title": "FAAM Flight C364 Acquisition", "abstract": "FAAM Flight C364 Acquisition" } }, { "ob_id": 13900, "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": 41518, "uuid": "d0f10f4d550a43fe9e0e4913d0249e35", "short_code": "acq", "title": "FAAM Flight C365 Acquisition", "abstract": "FAAM Flight C365 Acquisition" } }, { "ob_id": 13901, "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": 41522, "uuid": "4ffe33a1d08042948fc5bfdd22eba4a4", "short_code": "acq", "title": "FAAM Flight C366 Acquisition", "abstract": "FAAM Flight C366 Acquisition" } }, { "ob_id": 13902, "platform": { "ob_id": 40268, "uuid": "4de9d15d226940e98294ab0793d2926a", "short_code": "plat", "title": "London Air Quality Supersite (LAQS)", "abstract": "London Air Quality Supersite (LAQS) is used in the OSCA and QUANT projects. It hosts a large suite of air quality measuring instruments for long term monitoring and for intensive operation periods. LAQS site is an urban background location.\r\nAddress London Honor Oak Park, King's College Sports Ground, Brockley Rise, London, SE23 1NW\r\n\r\nUK-AIR ID: UKA00656\r\nEU Site ID: GB1098A\r\nAltitude (metres): 36\r\nEnvironment Type: Urban Background\r\nGovernment Region: Greater London\r\nEasting/Northing: 536473, 174125\r\nLatitude/Longitude: 51.449674, -0.037418" }, "instrument": { "ob_id": 41509, "uuid": "8616f54223b64e5f805e4a023d9d21ff", "short_code": "instr", "title": "LHOP: Teledyne T400 O3 Analyser", "abstract": "Teledyne model T400 UV Absorption analyser for measuring low ranges of ozone (O3) in ambient air." }, "relatedTo": { "ob_id": 41508, "uuid": "8e7f575830974b568b7704048ec172a9", "short_code": "acq", "title": "Acquisition for: Ozone Abundance Data from Teledyne T400 Instrument at London Honor Oak Park Air Quality Supersite", "abstract": "Acquisition for: Ozone Abundance Data from Teledyne T400 Instrument at London Honor Oak Park Air Quality Supersite" } }, { "ob_id": 13903, "platform": { "ob_id": 25273, "uuid": "f10d619f7b9f4dbab792dcc1ab9dbb68", "short_code": "plat", "title": "GCOM-W (Global Change Observation Mission for Water)", "abstract": "The Global Change Observation Mission for Water (GCOM-W) is a series of three satellites flown by the Japanese Space Agency (JAXA), addressing multi-purpose MW imagery for ocean, land and precipitation. It is part of their Global Change Observation Mission (GCOM).\r\nThe satellites exploit sun-synchronous orbits around 13:30, coordinated with that of POES satellites, Suomi-NPP and JPSS." }, "instrument": { "ob_id": 25272, "uuid": "a6002da7c0954ce0aa146c1b24877a0a", "short_code": "instr", "title": "AMSR-2", "abstract": "Advanced Microwave Scanning Radiometer -2, flying on the Global Change Observation Mission (GCOM) series of satellites flown by JAXA" }, "relatedTo": { "ob_id": 41574, "uuid": "6adb7ea8330f4428832ca3309601b7b6", "short_code": "acq", "title": "Acquisition for the ESA CCI SST AMSR datasets", "abstract": "The ESA Sea Surface Temperature Climate Change Initiative (SST_cci): Advanced Microwave Scanning Radiometer (AMSR) uses data from the AMSR-E instrument on the EOS Aqua satellite and the AMSR-2 instruments on board the GCOM-W satellite." } }, { "ob_id": 13904, "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": 14485, "uuid": "77dd26fc341a440b85a98fe95b1976f8", "short_code": "instr", "title": "AMSR-E", "abstract": "Advanced Microwave Scanning Radiometer for EOS" }, "relatedTo": { "ob_id": 41574, "uuid": "6adb7ea8330f4428832ca3309601b7b6", "short_code": "acq", "title": "Acquisition for the ESA CCI SST AMSR datasets", "abstract": "The ESA Sea Surface Temperature Climate Change Initiative (SST_cci): Advanced Microwave Scanning Radiometer (AMSR) uses data from the AMSR-E instrument on the EOS Aqua satellite and the AMSR-2 instruments on board the GCOM-W satellite." } }, { "ob_id": 13905, "platform": { "ob_id": 41608, "uuid": "197c01c716814296b21156855e7aa400", "short_code": "plat", "title": "Harwell TCCON site, Oxfordshire, UK", "abstract": "The Harwell TCCON observatory is based in Oxfordshire, UK. Probes and instruments are located on a concrete flat roof, surrounded by solar panels. No major obstructions in the vicinity." }, "instrument": { "ob_id": 41603, "uuid": "21ffe9d17c0843aa9fad16ebda29da6b", "short_code": "instr", "title": "GILL MaxiMet GMX101 weather station", "abstract": "GILL MaxiMet GMX101 weather station.\r\n\r\nFeatures include:\r\n- Pyranometer with ISO 9060 Second Class, measuring hemispherical solar radiation from a 180° field of view angle \r\n- Sensor sensitivity from 300 to 3000nm \r\n- Sunshine hours according to WMO definition with flux > 120 Wm-2" }, "relatedTo": { "ob_id": 41609, "uuid": "452764d8e30f446fa05bd6859caa7f13", "short_code": "acq", "title": "Acquisition for meteorological data from the TCCON site at Harwell, Oxfordshire (UK).", "abstract": "Instruments and Platform pairings for Meteorological data from the TCCON site at Harwell, Oxfordshire (UK)." } }, { "ob_id": 13906, "platform": { "ob_id": 41608, "uuid": "197c01c716814296b21156855e7aa400", "short_code": "plat", "title": "Harwell TCCON site, Oxfordshire, UK", "abstract": "The Harwell TCCON observatory is based in Oxfordshire, UK. Probes and instruments are located on a concrete flat roof, surrounded by solar panels. No major obstructions in the vicinity." }, "instrument": { "ob_id": 41604, "uuid": "25127aff6be44b4686d3fc5c252c880d", "short_code": "instr", "title": "GILL MaxiMet GMX240 weather station", "abstract": "GILL MaxiMet GMX240 weather station\r\n\r\nFeatures include:\r\nRainfall rate\r\n- Optical infra-red beam sensor for rain detection \r\n- Range from 0 to 300 mm/hr \r\n- Resolution of 0.08 mm \r\n- Sampling rate of 1 Hz\r\n \r\nWind speed, Wind from direction\r\n- Ultrasonic pulse sensors \r\n- Speed range 0.01 to 60 m/s, accuracy of 3% \r\n- Speed resolution of 0.01 m/s \r\n- Wind range 0 to 360°, accuracy of 3° \r\n- Direction resolution of 1° \r\n- Sampling rate of 1 Hz" }, "relatedTo": { "ob_id": 41609, "uuid": "452764d8e30f446fa05bd6859caa7f13", "short_code": "acq", "title": "Acquisition for meteorological data from the TCCON site at Harwell, Oxfordshire (UK).", "abstract": "Instruments and Platform pairings for Meteorological data from the TCCON site at Harwell, Oxfordshire (UK)." } }, { "ob_id": 13907, "platform": { "ob_id": 41608, "uuid": "197c01c716814296b21156855e7aa400", "short_code": "plat", "title": "Harwell TCCON site, Oxfordshire, UK", "abstract": "The Harwell TCCON observatory is based in Oxfordshire, UK. Probes and instruments are located on a concrete flat roof, surrounded by solar panels. No major obstructions in the vicinity." }, "instrument": { "ob_id": 41605, "uuid": "2a72f51a59834b9b9c63dfeaacd79892", "short_code": "instr", "title": "Omega PID controller", "abstract": "Omega PID controller: Solar tracker rotation stage temperature \r\n\r\nFeatures include:\r\n- Range from -50 to 100 ℃, accuracy of 1.0 ℃" }, "relatedTo": { "ob_id": 41609, "uuid": "452764d8e30f446fa05bd6859caa7f13", "short_code": "acq", "title": "Acquisition for meteorological data from the TCCON site at Harwell, Oxfordshire (UK).", "abstract": "Instruments and Platform pairings for Meteorological data from the TCCON site at Harwell, Oxfordshire (UK)." } }, { "ob_id": 13908, "platform": { "ob_id": 41608, "uuid": "197c01c716814296b21156855e7aa400", "short_code": "plat", "title": "Harwell TCCON site, Oxfordshire, UK", "abstract": "The Harwell TCCON observatory is based in Oxfordshire, UK. Probes and instruments are located on a concrete flat roof, surrounded by solar panels. No major obstructions in the vicinity." }, "instrument": { "ob_id": 41606, "uuid": "217992cee719436696560bf59aed343c", "short_code": "instr", "title": "TimeTools NTP Server and Antenna", "abstract": "TimeTools NTP Server and Antenna\r\n\r\nFeatures include:\r\n- 1575.42 MHz antenna covering GPS L1 and SBAS signals \r\n- Signal distribution from NTP server to network \r\n- NTP accuracy of 3 ms \r\n- Adjusts computer clock to GPS time" }, "relatedTo": { "ob_id": 41609, "uuid": "452764d8e30f446fa05bd6859caa7f13", "short_code": "acq", "title": "Acquisition for meteorological data from the TCCON site at Harwell, Oxfordshire (UK).", "abstract": "Instruments and Platform pairings for Meteorological data from the TCCON site at Harwell, Oxfordshire (UK)." } }, { "ob_id": 13909, "platform": { "ob_id": 41608, "uuid": "197c01c716814296b21156855e7aa400", "short_code": "plat", "title": "Harwell TCCON site, Oxfordshire, UK", "abstract": "The Harwell TCCON observatory is based in Oxfordshire, UK. Probes and instruments are located on a concrete flat roof, surrounded by solar panels. No major obstructions in the vicinity." }, "instrument": { "ob_id": 41607, "uuid": "b3f7aa4d6fc74e729f2ec0f13fd27a59", "short_code": "instr", "title": "VAISALA PTU307 transmitter", "abstract": "Pressure, Humidity, and Temperature Transmitter PTU307\r\n\r\nFeatures include:\r\n- Temperature range from -40 to +60 ℃, accuracy of ±0.2 ℃ at +20 ℃ ambient air \r\n- Barometric pressure range from 500 to 1100 hPa, accuracy of ±0.20 hPa at +20 ℃ ambient air \r\n- Relative humidity accuracy of ±1% for range 0 to 90%, and ±1.7% for range 90 to 100% at ambient air" }, "relatedTo": { "ob_id": 41609, "uuid": "452764d8e30f446fa05bd6859caa7f13", "short_code": "acq", "title": "Acquisition for meteorological data from the TCCON site at Harwell, Oxfordshire (UK).", "abstract": "Instruments and Platform pairings for Meteorological data from the TCCON site at Harwell, Oxfordshire (UK)." } }, { "ob_id": 13910, "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": 41623, "uuid": "18c73f89a9a94c859a096fafb983d30d", "short_code": "acq", "title": "CCI Biomass, v5.0", "abstract": "CCI Biomass, v5.0" } } ] }