Result List
Get a list of Result objects. Results have a 1:1 mapping with Observations.
GET /api/v3/results/?format=api&offset=1500
{ "count": 11555, "next": "https://api.catalogue.ceda.ac.uk/api/v3/results/?format=api&limit=100&offset=1600", "previous": "https://api.catalogue.ceda.ac.uk/api/v3/results/?format=api&limit=100&offset=1400", "results": [ { "ob_id": 8017, "uuid": "024ac6dad11b478a9f9ddeee8fef730c", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arc/data/l3/v1.1.1", "numberOfFiles": 60961, "volume": 219979098655, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8016, "uuid": "a44cd6735b7046e13da2ca0bec33c7a9", "short_code": "ob", "title": "ARC: Level 3 daily sea surface temperature data v1.1.1", "abstract": "The AATSR Reprocessing for Climate (ARC) dataset consists of Advanced Along-Track Scanning Radiometer (AATSR) multimission data which has been reprocessed using various algorithms and in-situ contemporaneous measurements, to provide update retrievals of Sea Surface Temperature (SST) and assess their accuracy.\r\n\r\nThis dataset contains version 1.1.1 of the Level 3 sea surface temperature data product produced by the ARC project team.\r\n\r\nThe main ARC objective was to reduce regional biases in retrieved sea surface temperature (SST) to less than 0.1 K for all global oceans while creating a very homogeneous record with a stability (lack of drift in the observing system and analysis) of 0.05 K decade." }, "onlineresource_set": [ 3687 ] }, { "ob_id": 8024, "uuid": "705e6cc59c164662bacb312ffb0b7953", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arc/data/l3_monthly", "numberOfFiles": 4, "volume": 140872864, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8023, "uuid": "c329ca3377e9c14a7619df5a3d24618b", "short_code": "ob", "title": "ARC: Level 3 monthly sea surface temperature data", "abstract": "The AATSR Reprocessing for Climate (ARC) dataset consists of Advanced Along-Track Scanning Radiometer multimission data which has been reprocessed using various algorithms and in-situ contemporaneous measurements, to provide update retrievals of Sea Surface Temperature (SST) and assess their accuracy. \r\n\r\nThis dataset contains Level 3 monthly sea surface temperature data produced in ARC project.\r\n\r\nThe main ARC objective was to reduce regional biases in retrieved sea surface temperature (SST) to less than 0.1 K for all global oceans while creating a very homogeneous record with a stability (lack of drift in the observing system and analysis) of 0.05 K decade." }, "onlineresource_set": [ 3688 ] }, { "ob_id": 8027, "uuid": "6f0238d5374f4295aa17892f29d8fdbc", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/sciamachy/data/l1b/v7-04", "numberOfFiles": 47903, "volume": 10482101066379, "fileFormat": "The data are in Envisat PDS format.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8026, "uuid": "8ee4297c9a1645205f0fd5334de56bb0", "short_code": "ob", "title": "SCIAMACHY: Level 1b radiance products version 7.04", "abstract": "Level 1b data (radiances) from the SCanning Imaging Absorption spectroMeter for Atmospheric CHartographY (SCIAMACHY). SCIAMACHY was one of the ten instruments on-board the Envisat satellite launched from Kourou (French Guyana) on the 28th of February 2002. Envisat was operated by the European Space Agency (ESA) until May 2012. SCIAMACHY was used to provide global measurements of trace gases in the troposphere and the stratosphere which are derived from the Level 1B radiance products." }, "onlineresource_set": [ 3691 ] }, { "ob_id": 8034, "uuid": "88aacfb445ad42a9a28565322a86c557", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/sciamachy/data/l2/v5-02", "numberOfFiles": 47079, "volume": 759946144419, "fileFormat": "The data are in Envisat PDS format", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8033, "uuid": "e4fb80f4ddeec0948a03c1baa1710301", "short_code": "ob", "title": "SCIAMACHY: Level 2 vertical columns of trace gases products version 5.02", "abstract": "Level 2 data (vertical columns of trace gases) from the SCanning Imaging Absorption spectroMeter for Atmospheric CHartographY (SCIAMACHY). SCHIAMACHY was one of the ten instruments on-board the Envisat satellite launched from Kourou (French Guyana) on the 28th of February 2002. Envisat was operated by the European Space Agency (ESA) until May 2012. SCIAMACHY was used to provide global measurements of trace gases in the troposphere and the stratosphere. These data are calculated using the radiance observations and known absorption spectra of such gases. Fully reprocessed Level 2 data is available, with samples of near-real-time (nrt) and consolidated (result of a first processing by ESA to eliminate bad data and perform a few basic checks) data." }, "onlineresource_set": [ 3694 ] }, { "ob_id": 8040, "uuid": "a9dcda6b425f412394c786d687e11434", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/gome2_metop_b/data", "numberOfFiles": 32561, "volume": 21087269398645, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8039, "uuid": "629f2e217e5a0df690cce2029b968da7", "short_code": "ob", "title": "Level1b GOME-2 data onboard MetOp B", "abstract": "Data from the GOME-2 instrument on-board the Eumetsat Polar System (EPS) Metop-B satellite. GOME-2 is a spectrometer that measures both the radiance component of the light reflected by the Sun-illuminated Earth's atmosphere and the direct sunlight. The measurements are used to obtain detailed information on global trace gas distributions of ozone, nitrogen dioxide, water vapor, bromine oxide and other trace gases as well as aerosol properties. The NERC Earth Observation Data Centre (NEODC) currently holds Level 1B data, and obtained the data directly from Eumetsat." }, "onlineresource_set": [ 3696 ] }, { "ob_id": 8043, "uuid": "ae4c6b6644e44026a9247461f221922b", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/elevation/dtm5/England_and_Wales", "numberOfFiles": 622110, "volume": 104863530374, "fileFormat": "Data are img and ecw (Enhanced Compression Wavelet) formatted.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8042, "uuid": "658b424abf423b0be4c60e99a6ac8100", "short_code": "ob", "title": "Bluesky 5m resolution Digital Terrain Model (DTM) for England and Wales", "abstract": "A Digital Terrain Model (DTM) for most of England and Wales provided by Bluesky and made available via the Landmap service, at 5m resolution. The 5m DTM is a photogrammetrically derived product from stereo aerial photography collected between 1999 and 2008. The aerial photography was captured at a resolution of between 10cm and 25cm. A digital elevation model is a digital model or 3D representation of a terrain's surface and, in contrast to a Digital Surface Model (DSM), represents the bare ground surface without any objects like plants and buildings. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was elevation data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: © GeoPerspectives supplied by Bluesky yyyy" }, "onlineresource_set": [ 3704 ] }, { "ob_id": 8050, "uuid": "46e0c9488c8a480c8f403d37f85e0a6a", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/elevation/dtm5/Scotland", "numberOfFiles": 11270, "volume": 37302752291, "fileFormat": "Data are img formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8049, "uuid": "fe89226774e191a45ea4a17c4d64cea1", "short_code": "ob", "title": "GetMapping 5m resolution Digital Terrain Model (DTM) for Scotland", "abstract": "A Digital Terrain Model (DTM) for most of Scotland provided by GetMapping and made available via the Landmap service, at 5m resolution. The 5m DTM is a photogrammetrically derived product from stereo aerial photography collected between 1999 and 2008. The aerial photography was captured at a resolution of between 10cm and 25cm. A digital elevation model is a digital model or 3D representation of a terrain's surface and, in contrast to a Digital Surface Model (DSM), represents the bare ground surface without any objects like plants and buildings. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was elevation data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: © GetMapping yyyy" }, "onlineresource_set": [ 3723 ] }, { "ob_id": 8052, "uuid": "0a38f15cb42a408a9949f7684e6c88bc", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/elevation/dsm2", "numberOfFiles": 49726, "volume": 147515589203, "fileFormat": "Data are img and ecw (Enhanced Compression Wavelet) formatted.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8051, "uuid": "4b0ed418e30819e4448dc89a27dc8388", "short_code": "ob", "title": "GetMapping 2m resolution Digital Surface Model (DSM) for Scotland and Wales", "abstract": "A 2m resolution Digital Surface Model (DSM) for Scotland and Wales photogrammetrically derived from aerial photography by GetMapping and acquired by the Landmap project. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was elevation data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC. A DSM is a digital model of a terrain's surface and represents the earth's surface and includes all objects on it.\r\n\r\nWhen using these data please also add the following copyright statment: © GetMapping yyyy" }, "onlineresource_set": [ 3729 ] }, { "ob_id": 8054, "uuid": "abc10282b74f4c1d923bf3ecdc111667", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/elevation/lidar", "numberOfFiles": 954, "volume": 76001174622, "fileFormat": "Data are img formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8053, "uuid": "acfa8955414aef710105ef640802b9aa", "short_code": "ob", "title": "1m resolution LiDAR-derived Digital Terrain/Surface Models (DTMs/DSMs) for cities of England and Scotland", "abstract": "Light Detection and Ranging (LiDAR) data was collected by The Geoinformation Group using LiDAR-equipped survey aircraft for the main urban conurbations of England and Wales (including London, Manchester, Birmingham, Liverpool, Newcastle, Edinburgh and Glasgow) as part of the Cities Revealed project, and made available through the Landmap service. The GeoInformation Group (TGG) has processed the data so that they are available as Digital Terrain Models (ground surface only) and Digital Surface/Elevation Models (the ground and all features on it), both geographic databases with height and surface measurement information in the form of regular grids with intervals of 1 or 2 m. In addition, some First Pass and Last Pass data are available. The First Pass data provides height values for the top of the canopy (i.e. buildings, trees etc.) while the Last Pulse data provides height values for the bottom of the canopy and provides information about the shape of the terrain. The data are available in img format. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was elevation data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using the data please also add the following copyright statement: Cities Revealed © The GeoInformation Group yyyy" }, "onlineresource_set": [ 3735 ] }, { "ob_id": 8061, "uuid": "a9398c95be314df7a20554952524e878", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr1-v2.1/data/at1_toa_1p", "numberOfFiles": 112902, "volume": 16389844338384, "fileFormat": "Data are Envisat binary formatted, type \".E2\".", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8060, "uuid": "9a41a2e3e0a9e52f24a8635d47cac381", "short_code": "ob", "title": "ATSR-1: Gridded Brightness Temperature/Reflectance (GBTR) product (AT1_TOA_1P), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-1 satellite (ATSR-1) Gridded Brightness Temperature/Reflectance (GBTR) Product. These data are the Level 1B product that consists of Top of Atmosphere (TOA) radiance measurements and brightness temperatures at full resolution for both the nadir and forward views. \r\n\r\nThe product was calibrated for instrumental and atmospheric effects and re-sampled to a fixed grid aligned to the sub-satellite track. This product were derived from the Level 0 product and auxiliary data, and serves as the input data for all Level 2 products. The third reprocessing was done to implement the updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [] }, { "ob_id": 8067, "uuid": "7a15652979c04b56ad150b3e97b396e9", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr1-v2.1/data/at1_nr__2p", "numberOfFiles": 68276, "volume": 2832660409561, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8066, "uuid": "4da63d4bf3bd88eb939d6eea2cc1009d", "short_code": "ob", "title": "ATSR-1: Gridded Surface Temperature (GST) Product (AT1_NR__2P), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-1 satellite (ATSR-1) Gridded Surface Temperature (GST) Product. These data are the Level 2 full spatial resolution (approximately 1 km by 1 km) geophysical product derived from Level 1B product and auxiliary data. \r\n\r\nThe contents of the pixel fields, which are a mixture of Top of Atmosphere (TOA) and surface brightness temperature/radiance, are switch-able depending on the surface type. The third reprocessing was done to implement updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [ 3752 ] }, { "ob_id": 8071, "uuid": "48cf74e1d52a4ef4a13db60768223903", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr1-v2.1/data/at1_ast_bp", "numberOfFiles": 43331, "volume": 88537834073, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8070, "uuid": "29645585678b0eedfdbcf568778b31b2", "short_code": "ob", "title": "ATSR-1: Three Band Colour Composite Browse Product (AT1_AST_BP) v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-1 satellite (ATSR-1) Browse Product. These data are 3 band colour composite, quick-look images at coarse resolution. The browse product for the ATSR-1 and the ATSR-2 missions were introduced during the third reprocessing of data products. This product was derived from the Level 1B product and auxiliary data." }, "onlineresource_set": [ 3754 ] }, { "ob_id": 8075, "uuid": "a38267156ae94d0ab324fa3cc30b1a96", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/ats_met_2p", "numberOfFiles": 100214, "volume": 446600759159, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8074, "uuid": "514e5dfbef651f336862ae5ca0424e86", "short_code": "ob", "title": "AATSR: Sea Surface Temperature Meteo Product (ATS_MET_2P), v2.1", "abstract": "Advanced Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Advanced Along-Track Scanning Radiometer on ESA ENVISAT satellite (AATSR) Spatially Averaged Sea Surface Temperature Product for Meteo Users. These data are the Level 2 product designed for the use by meteorological offices derived from Level 2 AST product. \r\n\r\nThe product contains only the sea surface temperature with spatial resolution of 10 arc minutes. It also contains Average Brightness Temperature (ABT) fields, which includes brightness temperature and TOA sea record on the same spatial resolution. Like the AST product this product is derived from, all areas contains data, where the land pixels have empty data, and the coasts containing averages derived only from the sea pixels in the cell. The third reprocessing was done to implement the updated algorithms, processors (the IPF Processor 6.05 from the IPF Processor 6.01), and auxiliary files." }, "onlineresource_set": [ 3755 ] }, { "ob_id": 8081, "uuid": "f37a98056c67488bb5a28e2771bf1afd", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr1-v2.1/data/at1_met_2p", "numberOfFiles": 44870, "volume": 184180120882, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8080, "uuid": "a5e6869570913d7db9a8b79956f7f6e1", "short_code": "ob", "title": "ATSR-1: Sea Surface Temperature Meteo Product (AT1_MET_2P) v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-1 satellite (ATSR-1) Spatially Averaged Sea Surface Temperature Product for Meteo Users. These data are the Level 2 product designed for the use by meteorological offices derived from Level 2 AST product.\r\n\r\nThe product contains only the sea surface temperature with spatial resolution of 10 arc minutes. It also contains the Average Brightness Temperature (ABT) fields, which includes brightness temperature and TOA sea record on the same spatial resolution. Like the AST product this product is derived from, all areas contains data, where the land pixels have empty data, and the coasts containing averages derived only from the sea pixels in the cell. The third reprocessing was done to implement the updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [ 3761 ] }, { "ob_id": 8085, "uuid": "c3c7b51d3d8a4de491e002ca8c23c83e", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/ats_ar__2p", "numberOfFiles": 100214, "volume": 4411650239974, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8084, "uuid": "644af662c4b8c1d6492c1b4f9bf4bf51", "short_code": "ob", "title": "AATSR: Averaged Surface Temperature (AST) product (ATS_AR__2P), v2.1", "abstract": "Advanced Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains Advanced Along-Track Scanning Radiometer (AATSR) on ESA ENVISAT satellite Average Surface Temperature (AST) product. These data are the Level 2 spatially averaged geophysical product derived from Level 1B product and auxiliary data. \r\n\r\nThere are two types of averages provided: 10 arcminute cells and 30 arcminute cells. All cells are present regardless of the surface type. Hence, the sea (land) cells would also have the land (sea) records even though these would be empty. Cells containing coastlines will have both valid land and sea records; the land (sea) record only contains averages from the land (sea) pixels. The third reprocessing was done to implement the updated algorithms, processors (the IPF Processor 6.05 from the IPF Processor 6.01), and auxiliary files." }, "onlineresource_set": [ 3764 ] }, { "ob_id": 8090, "uuid": "dda2279d47bb47a68307641df4428771", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/ats_ast_bp", "numberOfFiles": 100214, "volume": 231940560353, "fileFormat": "Data are netCDF formatted\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8089, "uuid": "008ad14a19d37cc23286a38ed7627522", "short_code": "ob", "title": "AATSR: Three Band Colour Composite Browse Product (ATS_AST_BP), v2.1", "abstract": "Advanced Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Advanced Along-Track Scanning Radiometer (AATSR) on ESA ENVISAT satellite Three Band Colour Composite Browse Product. These data are 3 band colour composite, quick-look images at coarse resolution. \r\n\r\nThis product has been derived from the Level 1B product and auxiliary data. The three bands are selected to best show the feature of the image, and it could vary between daylight time and night time. It also includes geolocation grid. The third reprocessing was done to implement updated algorithms, processors (the IPF Processor 6.05 from the IPF Processor 6.01), and auxiliary files." }, "onlineresource_set": [ 3769 ] }, { "ob_id": 8095, "uuid": "ae72418b31244f48b851e763d33bd590", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr2-v2.1/data/at2_ar__2p", "numberOfFiles": 173321, "volume": 2548614125666, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8094, "uuid": "9347586615e04edf3f6d3b5f9b98b729", "short_code": "ob", "title": "ATSR-2: Average Surface Temperature (AST) Product (AT2_AR__2P), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-2 satellite (ATSR-2) Average Surface Temperature (AST) Product. These data are the Level 2 spatially averaged geophysical product derived from Level 1B product and auxiliary data.\r\n\r\nThere are two types of averages provided: 10 arcminute cells and 30 arcminute cells. All cells are present regardless of the surface type. Hence, the sea (land) cells would also have the land (sea) records even though these would be empty. Cells containing coastlines will have both valid land and sea records; the land (sea) record only contains averages from the land (sea) pixels. The third reprocessing was done to implement the updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [ 3772 ] }, { "ob_id": 8101, "uuid": "c37ce8271e19473fad1703c9200dcc13", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr1-v2.1/data/at1_ar__2p", "numberOfFiles": 67409, "volume": 1193678105829, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8100, "uuid": "26c2a8daa01d31297e7f6f5a52967f25", "short_code": "ob", "title": "ATSR-1: Average Surface Temperature (AST) product (AT1_AR__2P), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-1 satellite (ATSR-1) Average Surface Temperature (AST) Product. These data are the Level 2 spatially averaged geophysical product derived from Level 1B product and auxiliary data. \r\n\r\nThere are two types of averages provided: 10 arcminute cells and 30 arcminute cells. All cells are present regardless of the surface type. Hence, the sea (land) cells would also have the land (sea) records even though these would be empty. Cells containing coastlines will have both valid land and sea records; the land (sea) record only contains averages from the land (sea) pixels. The third reprocessing was done to implement the updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [ 3775 ] }, { "ob_id": 8105, "uuid": "d70b4dad260c47c9be25d5b9d2453dab", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr2-v2.1/data/at2_met_2p", "numberOfFiles": 116636, "volume": 394406729449, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8104, "uuid": "6ee6eb0a4706d5020bcc1c441cd89f8f", "short_code": "ob", "title": "ATSR-2: Sea Surface Temperature Meteo Product (AT2_MET_2P), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-2 satellite (ATSR-2) Spatially Averaged Sea Surface Temperature Product for Meteo Users. These data are the Level 2 product designed for the use by meteorological offices derived from Level 2 AST product. The product contains only the sea surface temperature with spatial resolution of 10 arc minutes. It also contains the Average Brightness Temperature (ABT) fields, which includes brightness temperature and TOA sea record on the same spatial resolution. Like the AST product this product is derived from, all areas contains data, where the land pixels have empty data, and the coasts containing averages derived only from the sea pixels in the cell. The third reprocessing was done to implement the updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [ 3778 ] }, { "ob_id": 8109, "uuid": "dec7d975a32e4e0188054858dd4868df", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/ats_toa_1p", "numberOfFiles": 100226, "volume": 40881718741261, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8108, "uuid": "e05b507ee79b11cf8c12486ae9ac5404", "short_code": "ob", "title": "AATSR: Gridded Brightness Temperature/Reflectance (GBTR) product (ATS_TOA_1P), v2.1", "abstract": "Advanced Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Advanced Along-Track Scanning Radiometer on ESA ENVISAT satellite (AATSR) Gridded Brightness Temperature/Reflectance (GBTR) Product. These data are the Level 1B product that consists of Top of Atmosphere (TOA) radiance measurements and brightness temperatures at full resolution for both the nadir and forward views. \r\n\r\nThe product is calibrated for instrumental and atmospheric effects and re-sampled to a fixed grid aligned to the sub-satellite track. This product is derived from the Level 0 product and auxiliary data, and serves as the input data for all Level 2 products. The third reprocessing was done to implement the updated algorithms, processors (the IPF Processor 6.05 from the IPF Processor 6.01), and auxiliary files." }, "onlineresource_set": [ 3780 ] }, { "ob_id": 8114, "uuid": "9d93ce6d9c124933bd7e1b0ad6a96300", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr2-v2.1/data/at2_nr__2p", "numberOfFiles": 177675, "volume": 6025306526715, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8113, "uuid": "36473df8dd5b82309c06539a57210698", "short_code": "ob", "title": "ATSR-2: Gridded Surface Temperature (GST) Product (AT2_NR__2P), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-2 satellite (ATSR-2) Gridded Surface Temperature (GST) Product. These data are the Level 2 full spatial resolution (approximately 1 km by 1 km) geophysical product derived from Level 1B product and auxiliary data. The contents of the pixel fields, which are a mixture of Top of Atmosphere (TOA) and surface brightness temperature/radiance, are switch-able depending on the surface type. The third reprocessing was done to implement updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [ 3785 ] }, { "ob_id": 8118, "uuid": "33607ca3c9d54337907cf9a2573bcd62", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr2-v2.1/data/at2_ast_bp", "numberOfFiles": 74432, "volume": 157752933601, "fileFormat": "Data are netCDF formatted\r\n\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8117, "uuid": "e91ec49fa67680b7fb0e090a2761db63", "short_code": "ob", "title": "ATSR-2: Three Band Colour Composite Browse Product (AT2_AST_BP), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThe Along-Track Scanning Radiometer on ESA ERS-2 satellite (ATSR-2) Browse Product. These data are 3 band colour composite, quick-look images at coarse resolution. The browse product for the ATSR-1 and the ATSR-2 missions were introduced during the third reprocessing of data products. This product was derived from the Level 1B product and auxiliary data." }, "onlineresource_set": [ 3787 ] }, { "ob_id": 8122, "uuid": "27024c0ee8f44d2ca3a7a1c15d5cdb53", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr2-v2.1/data/at2_toa_1p", "numberOfFiles": 273970, "volume": 34850919348738, "fileFormat": "Data are Envisat binary formatted, type \".E2\".", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8121, "uuid": "3c3336df1dbad3ff98962734db843c2d", "short_code": "ob", "title": "ATSR-2: Gridded Brightness Temperature/Reflectance (GBTR) Product (AT2_TOA_1P), v2.1", "abstract": "Along-Track Scanning Radiometer (ATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-2 satellite (ATSR-2) Gridded Brightness Temperature/Reflectance (GBTR) Product. These data are the Level 1B product that consists of Top of Atmosphere (TOA) radiance measurements and brightness temperatures at full resolution for both the nadir and forward views. The product was calibrated for instrumental and atmospheric effects and re-sampled to a fixed grid aligned to the sub-satellite track. This product were derived from the Level 0 product and auxiliary data, and serves as the input data for all Level 2 products. The third reprocessing was done to implement the updated algorithms, processors, and auxiliary files." }, "onlineresource_set": [] }, { "ob_id": 8126, "uuid": "7da1a81c005b4228b23fc5402328f858", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/ats_nr__2p", "numberOfFiles": 100220, "volume": 7064728631695, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8125, "uuid": "ebb0efd3bf06d7d0472503729201e624", "short_code": "ob", "title": "AATSR: Gridded Surface Temperature (GST) product (ATS_NR__2P), v2.1", "abstract": "Advanced Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Advanced Along-Track Scanning Radiometer (AATSR) on ESA ENVISAT satellite Gridded Surface Temperature (GST) product. These data are the Level 2 full spatial resolution (approximately 1 km by 1 km) geophysical product derived from Level 1B product and auxiliary data. \r\n\r\nThe contents of the pixel fields, which are a mixture of Top of Atmosphere (TOA) and surface brightness temperature/radiance, are switch-able depending on the surface type. The third reprocessing was done to implement updated algorithms, processors (the IPF Processor 6.05 from the IPF Processor 6.01), and auxiliary files." }, "onlineresource_set": [ 3791 ] }, { "ob_id": 8131, "uuid": "75161f56a049486a88f5f4ff7a0f2b0e", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr2-v2.1/data/L3U", "numberOfFiles": 116774, "volume": 20595500902, "fileFormat": "Data are netCDF formatted\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8130, "uuid": "669b8fb96b189db46ddcdc7dd7f1cfd7", "short_code": "ob", "title": "ATSR-2: L3U Product (ATSR-2 L3U) sea surface temperature values, v2.1", "abstract": "Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-2 satellite (ATSR-2) L3U product. These data were introduced product in the third reprocessing of (A)ATSR multimission data. These data were produced by the new ARC L2P processor version 1.2 that also produced the new L2P data. The L3U product was produced through averaging the L2P data onto a regular grid at 30 arcminute resolution. Hence, the L3U product is similar to the AST/METEO product." }, "onlineresource_set": [ 3795 ] }, { "ob_id": 8135, "uuid": "427aebf0f6e04037a3e005dad8d78500", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr2-v2.1/data/L2P", "numberOfFiles": 110877, "volume": 1258070236704, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8134, "uuid": "97e5db7e92ded2f321405041a7d5513f", "short_code": "ob", "title": "ATSR-2: L2P Product (ATSR-2 L2P) sea surface temperature values, v2.1", "abstract": "Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-2 satellite (ATSR-2) L2P product is a full resolution data with dual-view Sea Surface Temperature (SST) values. \r\n\r\nVersion 3.0 of this dataset were produced with the ARC L2P processor version 1.2, which replaces the ARC SST processor. The processor applies its own algorithm to generate SST data from the Level 1B Data. This method differs from that used to produce the Gridded Surface Temperature (GST) products. This product also includes the ATSR Saharan Dust index (ASDI) and the clear-sky probability estimated by the ARC cloud detection algorithm." }, "onlineresource_set": [ 3799 ] }, { "ob_id": 8139, "uuid": "7d82d14ba3e34ca08dd8cd97ca161f6b", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr1-v2.1/data/L3U", "numberOfFiles": 61160, "volume": 11877948301, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8138, "uuid": "60e4d870ecc64359f804d1aee7ba373c", "short_code": "ob", "title": "ATSR-1: L3U Product (ATSR-1 L3U) sea surface temperature values, v2.1", "abstract": "Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-1 satellite (ATSR-1) L3U product. These data were introduced product in the third reprocessing of (A)ATSR multimission data. These data were produced by the new ARC L2P processor version 1.2 that also produced the new L2P data. The L3U product was produced through averaging the L2P data onto a regular grid at 30 arcminute resolution. Hence, the L3U product is similar to the AST/METEO product." }, "onlineresource_set": [ 3803 ] }, { "ob_id": 8143, "uuid": "a204cbaff3874c27a51f250a9b21e345", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/L3U", "numberOfFiles": 152260, "volume": 29127699311, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8142, "uuid": "fcf76f049fc4ef9e263aafedc76259d5", "short_code": "ob", "title": "AATSR: L3U Product (AATSR L3U) sea surface temperature values, v2.1", "abstract": "Advanced Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Advanced Along-Track Scanning Radiometer (AATSR) sea surface temperature values on ESA ENVISAT satellite L3U product. These data are newly introduced product in the third reprocessing of (A)ATSR multimission data.\r\n\r\nIt is produced by the new ARC L2P processor version 1.2 that also produced the new L2P data. The L3U product is produced through averaging the L2P data onto a regular grid at 30 arcminute resolution. Hence, the L3U product is similar to the AST/METEO product." }, "onlineresource_set": [ 3806 ] }, { "ob_id": 8148, "uuid": "50bdfc9798a54c29976c007d7f67ab66", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/L2P", "numberOfFiles": 153843, "volume": 1872224774247, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8147, "uuid": "5c433d03503b6afea005488b582c72fd", "short_code": "ob", "title": "AATSR: L2P Product (AATSR L2P) sea surface temperature values, v2.1", "abstract": "Advanced Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR). \r\n\r\nThis dataset contains the Advanced Along-Track Scanning Radiometer (AATSR) on ESA ENVISAT satellite L2P product. These data are full resolution data with dual-view Sea Surface Temperature (SST) values. \r\n\r\nVersion 3.0 of this dataset is produced with the ARC L2P processor version 1.2, which replaces the ARC SST processor. The processor applies its own algorithm to generate SST data from the Level 1B Data. This method differs from that used to produce the Gridded Surface Temperature (GST) products. This product also includes the ATSR Saharan Dust index (ASDI) and the clear-sky probability estimated by the ARC cloud detection algorithm." }, "onlineresource_set": [ 3811 ] }, { "ob_id": 8153, "uuid": "2352990451384212977a2176d23ce2e9", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/atsr1-v2.1/data/L2P", "numberOfFiles": 67981, "volume": 756487707226, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8152, "uuid": "f1814549468ddabed6177b1cf0d5f314", "short_code": "ob", "title": "ATSR-1: L2P Product (ATSR-1 L2P) sea surface temperature values, v2.1", "abstract": "Along-Track Scanning Radiometer (AATSR) mission was funded jointly by the UK Department of Energy and Climate Change External Link (DECC) and the Australian Department of Innovation, Industry, Science and Research External Link (DIISR).\r\n\r\nThis dataset contains the Along-Track Scanning Radiometer on ESA ERS-1 satellite (ATSR-1) L2P sea surface temperature product. These data are full resolution data with dual-view Sea Surface Temperature (SST) values. Version 3.0 of this dataset have been produced with the ARC L2P processor version 1.2, which replaces the ARC SST processor. The processor applies its own algorithm to generate SST data from the Level 1B Data. This method differs from that used to produce the Gridded Surface Temperature (GST) products. This product also includes the ATSR Saharan Dust index (ASDI) and the clear-sky probability estimated by the ARC cloud detection algorithm." }, "onlineresource_set": [ 3815 ] }, { "ob_id": 8157, "uuid": "3ed1def131734770a64d0a5310f13975", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/UOL_LST_3P", "numberOfFiles": 125586, "volume": 740911293299, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8156, "uuid": "84b0200944d5eca9b57aa6370429f23c", "short_code": "ob", "title": "AATSR: Level 3 University of Leicester Land Surface Temperature (LST) product (UOL_LST_3P), v2.1", "abstract": "Land Surface Temperature (LST) Level 3 gridded data products (UOL_LST_3P) from the Advanced Along Track Scanning Radiometer (AATSR) produced by the University of Leicester. \r\n\r\nThe data consists of global gridded Level 3 product at a pre-defined set of spatial and temporal resolutions. The product provide AATSR-derived land surface temperature data and its associated uncertainty, as wall as additional auxiliary information.\r\n\r\nThe gridded level 3 product has been derived from the 1km Level-2 AATSR Version 3 LST product (UOL_LST_2P). The Level 3 gridded product was produced under funding from the National Centre for Earth Observation (NCEO)." }, "onlineresource_set": [ 3818 ] }, { "ob_id": 8162, "uuid": "2c42c60af57d43b5b64cea4047f664d6", "short_code": "result", "curationCategory": "B", "dataPath": "/neodc/aatsr_multimission/aatsr-v2.1/data/UOL_LST_2P", "numberOfFiles": 100055, "volume": 3322415988630, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8161, "uuid": "931156948d9e417e1a271974d133f5b7", "short_code": "ob", "title": "AATSR: Level 2 University of Leicester Land Surface Temperature (LST) product (UOL_LST_2P), v2.1", "abstract": "Land Surface Temperature (LST) Level 2 data products (UOL_LST_2P) from the Advanced Along Track Scanning Radiometer (AATSR) produced by the University of Leicester. \r\n\r\nThe data consists of a Level 2 1km resolution AATSR-orbit based product at a pre-defined set of spatial and temporal resolutions. The product provide AATSR-derived land surface temperature data and its associated uncertainty, as wall as additional auxiliary information.\r\n\r\nLevel 2 products were produced under contract to the European Space Agency and constitute part of the official (A)ATSR multimission product from version 3 of that dataset. Funding from NERC and the National Centre for Earth Observation (NCEO) also helped in the development of this product and enabled the production of the derived Level 3 products. Both products are NetCDF formatted. For further information on the formats of each of the products please see their product user guides." }, "onlineresource_set": [ 3820 ] }, { "ob_id": 8168, "uuid": "0356c2ef9607411b952c9309f3f8dc83", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/thermal", "numberOfFiles": 426, "volume": 44206615620, "fileFormat": "<div property=\"cedacat:formats\">\r\n\r\nThe thermal imagery is available as mosaiced img, geotiff or jpeg files for the following areas: Bournemouth, Bradford, Braintree, Coventry, Eastleigh, Gateshead, Gloucester, Gosport, Lewisham, Newcastle, Newcaste-under-lyme, North Tyneside, Poole, Southampton, Southwark, Surrey Heath and Wolverhampton. img and geotiff files can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.hexagongeospatial.com/products/remote-sensing/erdas-er-viewer\">Erdas ER viewer</a> and <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a> for geotiff files, whilst JPEG images can be opened in any basic image viewing software.\r\n</div>\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8167, "uuid": "b099e8b9b3ffc6e9d9f3bc0ff75006b1", "short_code": "ob", "title": "Thermal imagery of England", "abstract": "Thermal imagery for selected areas of England was taken by a FLIR SC 6000 HS thermal camera mounted on a specially designed survey aircraft over the course of 2009 and 2010 by The GeoInformation Group (TGG) as part of the Cities Revealed project. The data were then acquired by the Landmap project. Positioning data were also recorded so that the thermal data could be accurately geolocated in post-processing. The thermal imagery is available as mosaiced img, geotiff or jpeg files for the following areas: Bournemouth, Bradford, Braintree, Coventry, Eastleigh, Gateshead, Gloucester, Gosport, Lewisham, Newcastle, Newcaste-under-lyme, North Tyneside, Poole, Southampton, Southwark, Surrey Heath and Wolverhampton. The thermal data were captured between 7pm to 11pm to avoid solar activity which would produce false readings and when most houses would be heated, in cold (less than 10C) dry weather so that the temperature differential between indoors and outdoors was maximum. The thermal camera has a resolution of <0.02C. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data, such as thermal imagery, for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Cities Revealed © The GeoInformation Group yyyy" }, "onlineresource_set": [ 3827 ] }, { "ob_id": 8174, "uuid": "8fe4a0e5e9334a85876b492e4dcdf41b", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/nceo-cryosphere/data/ice-sheet-dynamics/Greenland-Glacier-Calving-front", "numberOfFiles": 41, "volume": 620775695, "fileFormat": "maps and images are stored as TIFF formatted file. A metadata readme file is associated with the files in the archive.\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8173, "uuid": "dd6483225d844373621844fd2a6184a2", "short_code": "ob", "title": "Theme 5 - Cryosphere and Polar Oceans - Ice Sheet Dynamics: Jakobshavn Glacier Calving front - SAR backscatter images (March-July 2011)", "abstract": "This dataset has been produced as part of the Theme 5 (Cryosphere and Polar Oceans) in the National Centre for Earth Observation which aims to use new EO data to quantify changes in the mass balance of the cryosphere and to develop new models to represent the relevant processes in coupled climate prediction models.\r\nThis dataset holds timeseries of Greenland glacier calving front fluctuations as maps and backscatter intensity images for the period March-July 2011. \r\n\r\nThe dataset consists of 38 SAR backscatter images acquired every 3 days between the 12th March and 1st July 2011 during the ERS-2 3-day campaign.\r\n\r\nThe backscatter data were transformed to map coordinates using the GLAS/ICESat 1 km Laser Altimetry Digital Elevation Model of Greenland which is provided at Polar Stereographic grids (DiMarzio, J., Brenner, A., Schutz, R., Schuman, A. & Zwally, H.J. (2007): GLAS/ICESat 1 km laser altimetri digital elevation model of Greenland. Boulder, Colorado USA: National Snow and Ice Data Centre. Digital media). " }, "onlineresource_set": [ 3834 ] }, { "ob_id": 8180, "uuid": "74d6c7f5b19b4a16a9670b69b906a47f", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/nceo-cryosphere/data/ice-sheet-dynamics/Greenland-Glacier-Velocity", "numberOfFiles": 39, "volume": 596279843, "fileFormat": "Maps and images are stored as TIFF formatted file. A metadata readme file is associated with the files in the archive.\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8179, "uuid": "f85043abfb1bddd5fbaa857ef2d00b55", "short_code": "ob", "title": "Theme 5 - Cryosphere and Polar Oceans - Ice Sheet Dynamics: Jakobshavn Glacier Velocity Maps (March-July 2011)", "abstract": "This dataset has been produced as part of the Theme 5 (Cryosphere and Polar Oceans) in the National Centre for Earth Observation which aims to use new EO data to quantify changes in the mass balance of the cryosphere and to develop new models to represent the relevant processes in coupled climate prediction models. \r\n\r\nThis dataset holds timeseries of Greenland glacier velocity fluctuations as maps for the period March-July 2011. The 37 velocity maps were derived from SAR data acquired during the 2011 ERS-2 3-day campaign. The velocity maps are 3-day velocity averages and are given in meters per year (m/y) (magnitude values). The name of the velocity files provides the start and end date of each 3-day period.\r\n\r\nThe velocity fields were transformed to map coordinates using the GLAS/ICESat 1 km Laser Altimetry Digital Elevation Model of Greenland which is provided at Polar Stereographic grids (DiMarzio, J., Brenner, A., Schutz, R., Schuman, A. & Zwally, H.J. (2007)): GLAS/ICESat 1 km laser altimetri digital elevation model of Greenland. Boulder, \r\nColorado USA: National Snow and Ice Data Centre. Digital media).\r\n" }, "onlineresource_set": [ 3835 ] }, { "ob_id": 8183, "uuid": "b5a4da8ba5724421b103d3669481e674", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/radar/ers", "numberOfFiles": 1434, "volume": 31933280557, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\nData are available in ecw (Enhanced Compression Wavelet) and geotiff formats which can be opened in many earth observation image processing software including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/ERDASERViewer/Details.aspx\">Erdas ER viewer</a> and the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a> or <a href=\"https://earth.esa.int/web/guest/software-tools/-/article/nest-next-esa-sar-toolbox-5943\">NEST (Next ESA SAR Toolbox)</a>. Geotiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display. ecw files are compressed images. The data are split into three folders: coherence, ers1 and ers2 and then by region and format. Metadata containing precise location information are available with their respective files. \n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8182, "uuid": "5a3972cf97ef749479738d9ed16db73f", "short_code": "ob", "title": "European Remote Sensing (ERS) Satellites 1 & 2 UK radar data", "abstract": "Active Microwave Instrument - Synthetic Aperture Radar (AMI-SAR) data from the European Remote-Sensing satellites 1 and 2 between 1995 and 1999 were acquired by the Landmap project from QinetiQ and are available for large areas of the UK. Data from the individual satellites are available, but also coherence images from when both satellites were operational and orbiting in tandem, which show the difference between two images in the time between both satellites passing over (around 1 day). The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Original ERS data ERS data copyright ESA 1999/2000 (year of acquisition). Received and Distributed by QinetiQ under licence from the European Space Agency" }, "onlineresource_set": [ 3845 ] }, { "ob_id": 8190, "uuid": "6be9b7580aed4340b09fdc04001667a7", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/radar/asar", "numberOfFiles": 4808, "volume": 284111326904, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p>The data are available in geotiff format which can be opened in many earth observation image processing software including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/ERDASERViewer/Details.aspx\">Erdas ER viewer</a> and the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a> or <a href=\"https://earth.esa.int/web/guest/software-tools/-/article/nest-next-esa-sar-toolbox-5943\">NEST (Next ESA SAR Toolbox)</a>. Geotiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display. The data are split into the three modes acquired by Landmap (alternating polarisation, wide swath and image modes). The various polarisations can be determined from the filename: \n</p><ul>\n<li><b>hh</b> - Horizontal polarisation transmitted, horizontal received. </li>\n<li><b>vv</b> - Vertical transmitted, vertical received</li>\n<li><b>hv</b> - Horizontal transmitted, vertical received</li>\n<li><b>vh</b> - Vertical transmitted, horizontal received</li>\n</ul>\nSpecific products include 32 bit _geo GeoTiff, and 8 bit _geo_lia and _geo_ls_mask GeoTiffs. All the geotiff images are provided with GeoTiff World Files (.tfw) which are used to geo-reference images to an appropriate projection scheme. \n<p />\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8189, "uuid": "86a063c7f894cd9eceb6e542888a13ea", "short_code": "ob", "title": "ENVISAT Advanced Synthetic Aperture Radar (ASAR) UK imagery", "abstract": "Data from the Advanced Synthetic Aperture Radar (ASAR) on-board ENVISAT are available for the UK from 2002-2009. The raw data for the alternating polarisation, wide swath and image modes were acquired by the Landmap project from ESA and processed to produce 8 and 32-bit greyscale and multi-difference colour composite geotiff images. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: © ESA 2004/2005/2006/2007/2008…. Received and Distributed by University of Manchester under licence from the European Space Agency" }, "onlineresource_set": [ 3854 ] }, { "ob_id": 8195, "uuid": "718a5215ea6f4a6fab4c2b7867a2b47b", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/radar/palsar", "numberOfFiles": 10980, "volume": 108270112091, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p>The data are available in geotiff format which can be opened in many earth observation image processing software including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/ERDASERViewer/Details.aspx\">Erdas ER viewer</a> and the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a> or <a href=\"https://earth.esa.int/web/guest/software-tools/-/article/nest-next-esa-sar-toolbox-5943\">NEST (Next ESA SAR Toolbox)</a>. Geotiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display. The data are split into the three modes acquired by Landmap (Fine Beam Single (FBS), Fine Beam Dual (FBD) and Polarimetric). The various polarisations can be determined from the filename: \n</p><ul>\n<li><b>HH</b> - Horizontal polarisation transmitted, horizontal received. </li>\n<li><b>VV</b> - Vertical transmitted, vertical received</li>\n<li><b>HV</b> - Horizontal transmitted, vertical received</li>\n<li><b>VH</b> - Vertical transmitted, horizontal received</li>\n</ul>\nSpecific products include 32 bit _geo GeoTiff, and 8 bit _geo_lia and _geo_ls_mask GeoTiffs. All the geotiff images are provided with GeoTiff World Files (.tfw) which are used to geo-reference images to an appropriate projection scheme. \n<p />\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8194, "uuid": "e6e8b3853eed7eeceedf347737643414", "short_code": "ob", "title": "Advanced Land Observing Satellite (ALOS) Phased Array type-L band Synthetic Aperture Radar (PALSAR) UK imagery", "abstract": "Level 1 Advanced Land Observing Satellite (ALOS) Phased Array type-L band Synthetic Aperture Radar (PALSAR) data were acquired from ESA by the Landmap project and processed to produce greyscale 8 and 32-bit geotiff imagery for the UK and Republic of Ireland from 2007-2009. The UK data are projected onto the British National Grid whereas the Republic of Ireland data are projected onto the Irish National Grid. PALSAR is an active microwave sensor using L-band (2GHz) frequency and produces various products of different resolutions and performance. PALSAR data can be acquired during day or night, increasing the temporal coverage of data for a particular spatial extent. PALSAR is also unaffected by cloud cover allowing a better coverage of satellite data. \r\nPALSAR collects data in 4 different modes. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: © ESA 2004/2005/2006/2007/2008…. Received and Distributed by University of Manchester under licence from the European Space Agency" }, "onlineresource_set": [ 3862 ] }, { "ob_id": 8204, "uuid": "37eaa34b203f4f7790f0bcba32ac73da", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/gome-2/data/l1b/", "numberOfFiles": 0, "volume": 0, "fileFormat": "Data are EPS native formatted.\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": null, "onlineresource_set": [ 3875 ] }, { "ob_id": 8214, "uuid": "0f4ff9c4ca5c46d4aa77e95ac847d82d", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/avnir2", "numberOfFiles": 876, "volume": 39259067273, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p>The data are archived in the directory structure of region/year/data type/data for ease of use. Full Colour Composition (FCC), True Colour Composition (TCC) and Full Composite (FC) data are available as GeoTiff files which can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a> or <a href=\"http://www.hexagongeospatial.com/products/ERDASERViewer/Details.aspx\">Erdas ER viewer</a>. Geotiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display. FCC data comprises of bands 4, 3 and 2, TCC of 3, 2 and 1 and FC of all bands. Metadata, in the form of aux, rrd and tfw files, are contained in the same folders as the data. The tfw files are GeoTiff World Files which are used to geo-reference images to an appropriate projection scheme.\n</p>\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8213, "uuid": "bbdbb4e5ef063592ad8f3288f8441569", "short_code": "ob", "title": "Advanced Visible and Near InfraRed Radiometer type 2 (AVNIR 2) UK data", "abstract": "The Advanced Visible and Near InfraRed 4-band Radiometer type-2 (AVNIR-2) is a visible and near infrared 4-band radiometer offering 10m spatial resolution optical imagery that is often used for land and coastal earth observation applications. AVNIR-2 is on board the Japanese earth observation Advanced Land Observing Satellite (ALOS) and was developed by the Japanese Aerospace Exploration Agency (JAXA). The data were acquired by the Landmap project from ESA, and are available for large areas of the Republic of Ireland and small areas of Scotland and England, for 2007 to 2008. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: ESA 2004/2005/2006/2007/2008…. Received and Distributed by University of Manchester under licence from the European Space Agency." }, "onlineresource_set": [ 3896 ] }, { "ob_id": 8221, "uuid": "978ac664c3f346509f6f906e415cc7b0", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/cir/bluesky", "numberOfFiles": 1255876, "volume": 2269268788742, "fileFormat": "<div property=\"cedacat:formats\">\r\nThe data are split into 100x100km regions that correspond to <a href=\"http://www.ordnancesurvey.co.uk/resources/maps-and-geographic-resources/the-national-grid.html\">Ordnance Survey (OS) national grid</a> squares and archived in the directory structure of region/year/format/data. The data are available in GeoTiff format (with GeoTiff world files (.tfw) which are data files that are used to geo-reference images to an appropriate projection scheme), with some regions also available in ecw (Enhanced Compression Wavelet) format. Geotiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display, and ECW (Enhanced Compression Wavelet) files are compressed images. Most filenames start with the <a href=\"http://www.ordnancesurvey.co.uk/resources/maps-and-geographic-resources/the-national-grid.html\">OS grid reference</a> of the area covered by the file, in the format AA0000. GeoTiff files can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a>. The ecw (Enhanced Compression Wavelet) files can also be opened in most image viewing/editing software, including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/remote-sensing/erdas-er-viewer\">Erdas ER viewer</a>\r\n</div>\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8220, "uuid": "51c4273d47ef0130c422eafb2f99d4fe", "short_code": "ob", "title": "Colour InfraRed (CIR) data for England and Wales", "abstract": "Colour InfraRed (CIR) imagery for most of England and Wales collected between 2006 and 2010 at 50cm resolution by Bluesky, and then acquired by the Landmap project. The data were collected using digital cameras mounted underneath planes. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted Earth Observation satellite data for the majority of the UK, part of which was CIR data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC. The data are split into 100x100km regions that correspond to Ordnance Survey grid reference squares, and are available in GeoTiff format. Some regions are also available in ecw (Enhanced Compression Wavelet) format. Colour InfraRed imagery consists of imagery in three bands – Near InfraRed (NIR), red and green. CIR can be used study the health and variation of vegetation coverage as NIR rays are reflected at the bottom of leaves rather than the top, as with green. To aid with this, images were captured at times when plants were expected to be in full leaf. The invisible near infrared light of CIR can be \"seen\" by shifting it and the primary colours over so that near infrared wavelengths become visible as red while red wavelengths appear as green and green as blue. Blue wavelengths are shifted out of the visible portion of the spectrum and so they appear as black. On CIR imagery vegetation appears red while water generally appears black with artificial structures like buildings and roads showing as a light blue-green.\r\n\r\nWhen using these data please also include the following copyright statement: © GeoPerspectives supplied by Bluesky yyyy" }, "onlineresource_set": [ 3905 ] }, { "ob_id": 8226, "uuid": "50161f75e3b4438486a26c351a031da2", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/dmc", "numberOfFiles": 412, "volume": 52549763855, "fileFormat": "<div property=\"cedacat:formats\">\r\nThe data are archived in the directory structure of region/year/format/data. The data are available in GeoTiff format (with GeoTiff world files (.tfw) which are data files that are used to geo-reference images to an appropriate projection scheme) and ecw (Enhanced Compression Wavelet) format. Geotiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display. They can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a>. The ecw (Enhanced Compression Wavelet) files are compressed images and can also be opened in most image viewing/editing software, including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/remote-sensing/erdas-er-viewer\">Erdas ER viewer</a>\r\n</div>\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8225, "uuid": "afffd9d74f29f7a768e52d0945860c21", "short_code": "ob", "title": "Disaster Monitoring Constellation (DMC) UK imagery", "abstract": "The Disaster Monitoring Constellation (DMC) is a satellite series built by the Surrey Satellite Technology ltd (SSTL) and run by DMC International Imaging (DMCII). The DMC data archive contains data from the first (DMC-6) and second generation (DMC-6-22) UK satellites (which were part of the DMC), having multitemporal coverage for most parts of the UK for each year since 2007. The Landmap project collected the best available DMC images as a single coverage of most of the UK for each year from 2007 to 2010. The resolution provided by the second generation satellites and first generation satellites is 22m and 32m respectively, with data in green, red and Near InfraRed (NIR) bands collected. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC. The DMC is a constellation of small satellites that was formed by national governments and organisations for coordinating satellite imaging campaigns to assess and mitigate natural disasters with more up to date and timely imagery. The DMC programme started by launching Algeria's satellite \"AlSat-1\" in the year 2002. This first satellite was soon joined by the satellites of the British National Space Centre, Nigeria and Turkey forming the four satellite constellation. Later, China and Spain also became a part of the DMC mission.\r\n\r\nWhen using these data please also add the following copyright statement: © DMC International Imaging Ltd yyyy" }, "onlineresource_set": [ 3914 ] }, { "ob_id": 8238, "uuid": "e076104d11114bf69d9739464ffcdff0", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/h_ap", "numberOfFiles": 2218, "volume": 67049180704, "fileFormat": "<div property=\"cedacat:formats\">\r\nData are available in ecw (Enhanced Compression Wavelet) and MrSID (Multiresolution Seamless Image Database) formats which can both be opened with most image viewing/editing or GIS software such as such as <a href=\"http://www.hexagongeospatial.com/products/remote-sensing/erdas-er-viewer\">Erdas ER viewer</a>. Both formats are ultimately compressed images however the MrSID (Multiresolution Seamless Image Database) format (.sid extension) allows large compressed raster image files (such as aerial photographs or satellite imagery) to be quickly viewed without having to decompress the entire file. The data are archived in the directory structure of country/region_year/format/data for ease of use. Metadata containing location and other information (.ers, .sdw and .xml files) are included with their respective data files. \r\n</div>\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8237, "uuid": "3bd036bf5e877dcd3666eee55be70960", "short_code": "ob", "title": "Historical Aerial Photography for the UK and France", "abstract": "UK coverage at 50cm to 1m resolution for various dates from the 1930s onwards including UK-wide post war surveys from 1946 to 1952, city, county and district wide databases with a variety of film and print archives also available. Small areas of France were also covered. Sources include R.A.F., U.S.A.F. and Luftwaffe. The data were acquired by the Landmap project from The GeoInformation Group's (TGG) Cities Revealed project. Created from original film where possible, sourced from several archives, this database represents the very best of RAF, Luftwaffe and USAF aerial photography flown during 1939 to 1952. Images were then mosaiced together to produce regional coverage for various areas. Close inspection of some of the images will show where the images were created using printed images as printed annotations are visible. While in other cases prints are visible on the margins of the original film shown. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Cities Revealed © The GeoInformation Group yyyy" }, "onlineresource_set": [ 3923 ] }, { "ob_id": 8240, "uuid": "0caa363ff02345aa8357d3b105426983", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/m_ap", "numberOfFiles": 32094, "volume": 1465985735433, "fileFormat": "<div property=\"cedacat:formats\">\r\nData are available in ecw (Enhanced Compression Wavelet) and MrSID (Multiresolution Seamless Image Database) formats which can both be opened with most image viewing/editing or GIS software such as such as <a href=\"http://www.hexagongeospatial.com/products/remote-sensing/erdas-er-viewer\">Erdas ER viewer</a>. Both formats are ultimately compressed images however the MrSID (Multiresolution Seamless Image Database) format (.sid extension) allows large compressed raster image files (such as aerial photographs or satellite imagery) to be quickly viewed without having to decompress the entire file. The data are archived in the directory structure of country/region_year/format/data for ease of use. Metadata containing location and other information (.ers, .sdw and .xml files) are included with their respective data files. \r\n</div>\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8239, "uuid": "1999cc89208158c8616845f01ac93100", "short_code": "ob", "title": "Modern UK Aerial Photography", "abstract": "Aerial photography obtained from The Geoinformation Group's (TGG) Cities Revealed project, acquired by the Landmap project, is available for over 65% of the UK's population, from 1969 to 2010. The imagery has a high resolution of 5-25cm. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Cities Revealed © The GeoInformation Group yyyy" }, "onlineresource_set": [ 3928 ] }, { "ob_id": 8242, "uuid": "628bee1e127148ad935ee47d2db0c753", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/l45", "numberOfFiles": 146, "volume": 14559485960, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\nUK data are available as img files which are raster image files created by ERDAS IMAGINE that contain one or more layers, called bands, which include multiple image tiles that comprise the image. The files can be opened in all earth observation image processing software including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/ERDASERViewer/Details.aspx\">Erdas ER viewer</a>. Data are archived in the directory structure of region/year/format/data for ease of use, xml metadata containing location information are provided with their respective data files. \n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8241, "uuid": "7ab8a717cb371584966f80a023d7eab7", "short_code": "ob", "title": "UK Landsat 4/5 imagery acquired by Landmap from Infoterra", "abstract": "Raw Landsat 4/5 data covering the UK were acquired from Infoterra by the Landmap project. Landmap subsequently orthorectified and mosaiced the images. Two types of image data from the satellite are available for the UK from 1988 to 1992: MultiSpectral Scanner (MSS) and Thematic Mapper (TM). Landsat 4 and 5 carry both the MSS and the TM sensors; however, routine collection of MSS data was terminated in late 1992. The MSS and TM sensors primarily detect reflected radiation from the Earth's surface in the visible and near-infrared (IR) wavelengths, but the TM sensor with its seven spectral bands provides more radiometric information than the MSS sensor. The Landsat Program is one of the longest running programmes for image acquisition from space, first launched in 1972 the program is managed between the U.S. Geological Survey (USGS) and NASA. Eight satellites have so far been launched, the most recent being Landsat 8, on February 11th, 2013. Landsat satellite imagery offers a unique resource for global change research and applications in agriculture, geology, forestry, regional planning, education, and national security. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Original Landsat 4 & 5 Landsat data copyright NOAA. Distributed by CHEST under licence from Infoterra International." }, "onlineresource_set": [ 3933 ] }, { "ob_id": 8254, "uuid": "5729a9760fcf4febbbb9ebf879bec3da", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/l7", "numberOfFiles": 436, "volume": 22938459456, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\nPanchromatic images are available in img format, with all others available in GeoTiff and ecw formats. All three formats can be opened in all earth observation image processing software including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/ERDASERViewer/Details.aspx\">Erdas ER viewer</a> or <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a>. img files are raster image files created by ERDAS IMAGINE that contain one or more layers, called bands, which include multiple image tiles that comprise the image, GeoTiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file (which can then be used to position the image in the correct location and geometry on the screen of a geographic information display) and ecw (Enhanced Compression Wavelet) files are compressed images. Data are archived in the directory structure of region/year/format/data for ease of use, metadata are provided with their respective data files. \n</div>\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8253, "uuid": "b4d92aef2611636e0ae42de3d5fa4900", "short_code": "ob", "title": "Landsat 7 data acquired by Landmap from Infoterra", "abstract": "Landsat 7 imagery was acquired by the Landmap project from Infoterra. Landsat 7 satellite is equipped with an Enhanced Thematic Mapper Plus (ETM+) instrument, developed by Raytheon Santa Barbara Remote Sensing in Santa Barbara, California. Imagery is available for the whole of the UK from 1999 to 2001 at 15m resolution for the panchromatic and 25m resolution for the band 1-3 and 1-7 GeoTiff images. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statements: Copyright University of Manchester/University College London Year 2001. Original Landsat 7 Distributed by Infoterra International." }, "onlineresource_set": [ 3944 ] }, { "ob_id": 8262, "uuid": "b384f76b7433415a9c9bb56b8460098a", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/lmed", "numberOfFiles": 16, "volume": 2431187550, "fileFormat": "<div property=\"cedacat:formats\">\r\nBand 1-5,7 imagery is available in a single .img file for each collection shown above. The .img format can be opened in most earth observation image processing software including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/remote-sensing/erdas-er-viewer\">Erdas ER viewer</a> or <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A) ATSR and Meris Toolbox (BEAM)</a>. img files are raster image files created by ERDAS IMAGINE that contain one or more layers, called bands, which include multiple image tiles that comprise the image. The data folders are labelled as l?med_ppp_rr_ddmmyyyy where ? is either 5 or 7 corresponding to Landsat 5 and 7 respectively, ppp is the satellite path number, rr is the row number, and ddmmyyyy is the date of collection. See the NASA page on the <a href=\"http://landsat.gsfc.nasa.gov/?p=3231\">Landsat Worldwide Reference System</a> for more information about paths and rows. \r\n</div>\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8261, "uuid": "4b814c20c1efd0db622146794db6f787", "short_code": "ob", "title": "Landsat Mediterranean data acquired by Landmap", "abstract": "Landsat data for Cyprus, East Spain and West Spain is available from Landsat 5 and 7. The data were obtained by the Landmap project from donations by various academic institutions. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC." }, "onlineresource_set": [ 3956 ] }, { "ob_id": 8270, "uuid": "7cb6679192e64e48b511426a53c4fdd2", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/nir_red-edge", "numberOfFiles": 834, "volume": 12292763938, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\nData are available in GeoTiff format. GeoTiff files can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a>. The following metadata files are provided with their respective images:\n<ul>\n<li>XML: These files contain information such as latitude/longitude, collection date etc. of the particular image. General information about the product is also available.</li>\n<li>GeoTiff files with the _browse suffix: These files show the full extent of valid imagery available for the given image tile, regardless of any black-fill. The resolution of these files is comparatively less than the valid imagery - around 48m.</li>\n<li>GeoTiff files with the _udm suffix: The Unusuable Data Mask (UDM) files are generated by the system during a cloud detection operation applied on each acquired image. The UDM files also show the full extent of valid imagery. For more information about the characteristics of the UDM files see the <a href=\"http://blackbridge.com/rapideye/upload/RE_Product_Specifications_ENG.pdf\">RapidEye Satellite Imagery\nProduct Specifications guide</a></li>\n<li>TXT: These are simple license and readme text files that contain the text of license related to terms and conditions between buyer and the RapidEye, and copyright information respectively.</li>\n</ul>\nThe data are split into folders for 2009, 2010 and 2011.\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8269, "uuid": "35a68ae7f6bcad835e76ad8cdd8b8190", "short_code": "ob", "title": "Near InfraRed (NIR) red-edge data for Northern Ireland", "abstract": "Near InfraRed red-edge imagery for Northern Ireland from 2009 to 2011 was acquired by the Landmap project from RapidEye. The imagery has a spatial resolution of 6.5metres and contains 5 spectral bands. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC." }, "onlineresource_set": [ 3962 ] }, { "ob_id": 8278, "uuid": "c4c23e990f6c4a999bf7271026bc5309", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/spot", "numberOfFiles": 650, "volume": 9279248474, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p>10 to 20m resolution panchromatic imagery is available for the UK and Ireland from 1986 to 1995 in GeoTiff format, they are isolated scenes captured over an extended time period. The data are archived in the structure country/year/geotiff/orthospotxx_xxx_ddmmyyyy/datafiles where ddmmyyyy is the date that the image was collected on. XML metadata files containing information such as latitude/longitude, collection date and general information about the product; are located with their respective image files.</p>\n<p>GeoTiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display. They can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a>.</p>\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8277, "uuid": "88c42e0b495a708d391957dc4f96d37c", "short_code": "ob", "title": "SPOT (Earth-Observing Satellites) Imagery", "abstract": "10 to 20m resolution panchromatic imagery is available for the UK and Ireland from 1986 to 1995 (from SPOT 1, 2 and 3 satellites). They are isolated scenes captured over an extended time period. The data were acquired by the Landmap project from Infoterra. The SPOT satellite Earth Observation System was designed by the Centre National d'Etudes Spatiales (CNES), in France. There have been 7 SPOT (Satellite Pour l'Observation de la Terre) satellites launched since 1986 (as of August 2014), providing medium to high resolution of the Earth's surface. SPOT 1, 2 and 3 carried a multi-spectral and panchromatic sensor on board. SPOT 4 was successfully launched in March 1998. The first three SPOT satellites carry twin HRVs (High-Resolution Visible Imaging instruments) that operate in a number of viewing configurations and in different spectral modes. Some of those viewing configurations and spectral modes include one HRV only operating in a dual spectral mode (i.e. in both panchromatic mode and multispectral mode); two HRVs operating in the twin-viewing configuration (i.e. one HRV in panchromatic mode and one HRV in multispectral mode); and two HRVs operating independently of each other (i.e. not in twin-viewing configuration). The position of each HRV entrance mirror can be commanded by ground control to observe a region of interest. Operating independently of each other, the two HRVs acquire imagery in either multispectral (XS) and/or panchromatic (P) modes at any viewing angle within plus or minus 27 degrees. This off-nadir viewing enables the acquisition of stereoscopic imagery. To make sure the satellite covers every point on the earth's surface, the HRV imaging instruments offer a field of view that is wider than the greatest distance between two adjacent tracks.\r\nThe Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also include the following copyright statement on any reproduced SPOT images: CNES (year of reproduction of the data from the satellite), reproduced by................................................. under licence from SPOT IMAGE" }, "onlineresource_set": [ 3970 ] }, { "ob_id": 8286, "uuid": "b41021aaedda491e92fba2d64c24366b", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/topsat", "numberOfFiles": 972, "volume": 8660630035, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p>Data are available as panchromatic (image-xxxx-pan) or multispectral (image-xxxx-ms), in Tiff, ecw (Enhanced Compression Wavelet) and JPEG formats. Data were collected between November 2007 and August 2009. The data are separated by location.</p>\n<p>Tiff files can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a>, and ecw files can be opened in most image viewing/editing software, including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/ERDASERViewer/Details.aspx\">Erdas ER viewer</a>. JPEG images can be opened by most basic image viewers.</p>\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8285, "uuid": "cf6e14075d6f66fd44cc0e1391a01852", "short_code": "ob", "title": "TOPSAT (Tactical Operational Satellite) imagery acquired by Landmap", "abstract": "Topsat images acquired by the Landmap project from Infoterra are available for selected areas in the following countries and locations: Albania, Argentina, Armenia, Botswana, Cameroon, China, Croatia, Egypt, Farasan Islands, Ghana, Honduras, Iraq, Kazakhstan, Krakatau, Mali, Mexico, Nigeria, Nile Delta, Palestine, Patagonia, Russia and Santa Cruz Island. Data are available as panchromatic or multispectral, in Tiff, ecw (Enhanced Compression Wavelet) and JPEG formats. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC." }, "onlineresource_set": [ 3991 ] }, { "ob_id": 8294, "uuid": "9ee19e34d398483b820401ab5170ec54", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/optical/cir/getmapping", "numberOfFiles": 885998, "volume": 772570350189, "fileFormat": "<div property=\"cedacat:formats\">\r\nThe data are split into 100x100km regions that correspond to <a href=\"http://www.ordnancesurvey.co.uk/resources/maps-and-geographic-resources/the-national-grid.html\">Ordnance Survey (OS) national grid</a> squares and archived in the directory structure of region/year/format/data. The data are available in GeoTiff format (with GeoTiff world files (.tfw) which are data files that are used to geo-reference images to an appropriate projection scheme), with some regions also available in ecw (Enhanced Compression Wavelet) format. Geotiff files are TIFF files which have geographic metadata embedded as tags within the TIFF file. The geographic metadata can then be used to position the image in the correct location and geometry on the screen of a geographic information display. Most filenames start with the <a href=\"http://www.ordnancesurvey.co.uk/resources/maps-and-geographic-resources/the-national-grid.html\">OS grid reference</a> of the area covered by the file, in the format AA0000. GeoTiff files can be opened by most Geographic Information Systems (GIS) and Image Processors (IP) such as the freely available <a href=\"http://www.brockmann-consult.de/cms/web/beam/\">Basic ERS &amp; Envisat (A)ATSR and Meris Toolbox (BEAM)</a>. The ecw (Enhanced Compression Wavelet) files can also be opened in most image viewing/editing software, including open/free software such as <a href=\"http://www.hexagongeospatial.com/products/remote-sensing/erdas-er-viewer\">Erdas ER viewer</a>.\r\n</div>\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8293, "uuid": "ddd2973171798280640c3f585559179e", "short_code": "ob", "title": "Colour InfraRed (CIR) data for Scotland", "abstract": "Colour InfraRed (CIR) imagery for most Scotland collected between 2006 and 2010 at 50cm resolution by GetMapping, and then acquired by the Landmap project. The data were collected using digital cameras mounted underneath planes. The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted Earth Observation satellite data for the majority of the UK, part of which was CIR data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC. The data are split into 100x100km regions that correspond to Ordnance Survey grid reference squares, and are available in GeoTiff format. Some regions are also available in ecw (Enhanced Compression Wavelet) format. Colour InfraRed imagery consists of imagery in three bands – Near InfraRed (NIR), red and green. CIR can be used to study the health and variation of vegetation coverage as NIR rays are reflected at the bottom of leaves rather than the top, as with green. To aid with this, images were captured at times when plants were expected to be in full leaf. The invisible near infrared light of CIR can be \"seen\" by shifting it and the primary colours over so that near infrared wavelengths become visible as red while red wavelengths appear as green and green as blue. Blue wavelengths are shifted out of the visible portion of the spectrum and so they appear as black. On CIR imagery vegetation appears red while water generally appears black with artificial structures like buildings and roads showing as a light blue-green." }, "onlineresource_set": [ 4005 ] }, { "ob_id": 8297, "uuid": "57fbd5a6ac0f45a3a0bf40a0dae0d1af", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/iasi_metop_b/data/l1c", "numberOfFiles": 46371, "volume": 96013148656000, "fileFormat": "EUMETSAT IASI L1C Native format", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8296, "uuid": "0092c4fe29f76c1b99b4dc19133f361a", "short_code": "ob", "title": "IASI atmospheric spectra (L1C product) from the EPS Metop-B satellite: CEDA mirror archive for STFC, NCAS, NCEO", "abstract": "This dataset contains level 1C data products from the Infrared Atmospheric Sounding Interferometer (IASI) instrument onboard the Eumetsat EPS Metop-B satellite.\r\n\r\nIASI was designed to measure the infrared spectrum emitted by the earth. IASI provides infrared soundings of the temperature profiles in the troposphere and lower stratosphere, moisture profiles in the troposphere, as well as some of the chemical components playing a key role in the climate monitoring, global change and atmospheric chemistry. The IASI L1c product contains infra-red radiance spectra at the 0.5cm-1 resolution, covering the range between 645.0 cm-1 and 2760 cm-1\r\n\r\nThis data set contains both the original processed data and reprocessed archive in the following directories based on processing algorithm. Please see information under the process tab for further information. Please note an erratum has been raised in relation to 2017 data please see the Ten-Year Assessment of IASI Radiance and Temperature in the documentation section.\r\n\r\nThis data has been provided by EUMETSAT to CEDA to support access to active scientists from the following institutions only.\r\n\r\n- The Science and Technology Facilities Council (STFC)\r\n- The National Centre for Earth Observation (NCEO)\r\n- The National Centre for Atmospheric Science (NCAS)\r\n\r\nIf you are from one of these institutions, please apply for access below and follow the instructions. If you are not from one of these institutions, please go to the documentation section for the relevant link to the EUMETSAT EO portal where you can obtain the data directly." }, "onlineresource_set": [ 4014 ] }, { "ob_id": 8305, "uuid": "b090d28bbd5c41cead208c027a00f636", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/iasi_metop_b/data/l2", "numberOfFiles": 30313, "volume": 2788091739824, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8304, "uuid": "bdb716a4594d1f938764081ac3fd6463", "short_code": "ob", "title": "Level 2 data from the IASI (Infrared Atmospheric Sounding Interferometer) instrument on board the Metop-B satellite", "abstract": "Level 2 data products from the Infrared Atmospheric Sounding Interferometer (IASI) instrument on board the Eumetsat EPS Metop-B satellite. IASI is designed to measure the infrared spectrum emitted by the earth. IASI provides infrared soundings of the temperature profiles in the troposphere and lower stratosphere, moisture profiles in the troposphere, as well as some of the chemical components playing a key role in the climate monitoring, global change and atmospheric chemistry." }, "onlineresource_set": [ 4019 ] }, { "ob_id": 8312, "uuid": "2d5afcc5fe3642d5b2ee7696eef08645", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/sister/data/QM2", "numberOfFiles": 2397, "volume": 9625989046, "fileFormat": "The data are stored in .nc format. The voyage paths of the ships are also provided in .kml format.\r\n\r\nData Coverage:\r\n\r\n2010-10-02 - 2010-10-08\r\n2010-10-10 - 2010-11-09\r\n2010-11-17 - 2011-04-19\r\n2011-05-17 - 2011-05-17\r\n2011-05-24 - 2011-06-04\r\n2011-06-06 - 2011-07-04\r\n2011-07-13 - 2011-09-20\r\n2011-09-22 - 2011-12-11\r\n2012-01-11 - 2012-03-12\r\n2012-03-14 - 2012-03-22\r\n2012-03-26 - 2012-04-30\r\n2012-05-02 - 2012-05-05\r\n2012-05-11 - 2012-05-24\r\n2012-05-27 - 2012-06-12\r\n2012-06-14 - 2012-06-23\r\n2012-12-04 - 2013-04-24\r\n2013-11-12 - 2013-12-04\r\n2014-01-10 - 2014-02-24", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8311, "uuid": "2468111923fd4ebc5da07e727e6c88e8", "short_code": "ob", "title": "(A)ATSR Validation Campaign - SISTeR SST Data from RMS Queen Mary 2", "abstract": "Skin Sea Surface Temperature data from the (A)ATSR Validation Campaign by SISTeR (Scanning Infrared Sea surface Temperature Radiometer). To ensure the accuracy of the (A)ATSR, there have been joint efforts to validate the measurement data. One of these efforts is the (A)ATSR Validation Campaign which involves the deployment of the Scanning Infrared Sea surface Temperature Radiometer (SISTeR). This dataset contains the SST data of the Atlantic Ocean, Indian Ocean, and the Western Pacific measured by the SISTeR on-board RMS Queen Mary 2 (QM2) during her voyages since 2010. The data collection continues despite the end of AATSR mission for continuation of SST measurement before the deployment of SLSTR on Sentinel-3." }, "onlineresource_set": [ 4024 ] }, { "ob_id": 8318, "uuid": "a30b62b4e4494053b5cb057b63d2af85", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/sister/data/Ragnhild", "numberOfFiles": 185, "volume": 808044338, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p>\nThe data are stored in .nc format. The voyage paths of the ships are also provided in .kml format.\n</p>\n<p>\nData Coverage:\n</p><ul>\n<li> 2008-02-27 - 2008-04-22 </li>\n</ul>\n<p />\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8317, "uuid": "64cf17e945673500cb439fa3da68e105", "short_code": "ob", "title": "(A)ATSR Validation Campaign - SISTeR SST Data from MS Prinsesse Ragnhild", "abstract": "Skin Sea Surface Temperature data from the (A)ATSR Validation Campaign by SISTeR (Scanning Infrared Sea surface Temperature Radiometer). To ensure the accuracy of the (A)ATSR, there have been joint efforts to validate the measurement data. One of these efforts is the (A)ATSR Validation Campaign which involves the deployment of the Scanning Infrared Sea surface Temperature Radiometer (SISTeR). This dataset contains the SST data of the North Sea measured by the SISTeR on-board MS Prinsesse Ragnhild during her voyages in 2008 ." }, "onlineresource_set": [ 4029 ] }, { "ob_id": 8323, "uuid": "016e146b859247189462c32818d40207", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/sister/data/Festival", "numberOfFiles": 234, "volume": 842249405, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p>\nThe data are stored in .nc format. The voyage paths of the ships are also provided in .kml format.\n</p>\n<p>\nData Coverage:\n</p><ul>\n<li> 2006-05-15 - 2006-05-16 </li>\n<li> 2006-07-18 - 2006-08-17 </li>\n<li> 2006-08-23 - 2006-09-17 </li>\n</ul>\n<p />\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8322, "uuid": "b9f371df3a07cbb5944484cdc785a0a5", "short_code": "ob", "title": "(A)ATSR Validation Campaign - SISTeR SST Data from MS Color Festival", "abstract": "Skin Sea Surface Temperature data from the (A)ATSR Validation Campaign by SISTeR (Scanning Infrared Sea surface Temperature Radiometer). To ensure the accuracy of the (A)ATSR, there have been joint efforts to validate the measurement data. One of these efforts is the (A)ATSR Validation Campaign which involves the deployment of the Scanning Infrared Sea surface Temperature Radiometer (SISTeR). This dataset contains the SST between Oslo, Norway and Frederikshavn, Denmark measured by the SISTeR on-board MS Color Festival during her voyages in 2006." }, "onlineresource_set": [ 4031 ] }, { "ob_id": 8329, "uuid": "ada070d0079643439c1eced2e8246e8d", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/casix/seawifs_primary_production/data", "numberOfFiles": 134, "volume": 839582338, "fileFormat": "Data are netCDF formatted and images are GIF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8328, "uuid": "b318e76e5a427ad9cc233aad60f1684d", "short_code": "ob", "title": "CASIX: Global monthly carbon primary production estimates", "abstract": "CASIX, the Centre for observation of Air-Sea Interactions & fluXes, is a NERC Centre of Excellence in Earth Observation. The scientific focus was on advancing the science of air-sea interactions and reducing the errors in the prediction of climate change. The primary goal was to quantify accurately the global air-sea fluxes of carbon dioxide (CO2). CASIX accelerated the exploitation of new Earth Observation satellite data to further the understanding of marine biogeochemistry in the Earth System. CASIX links NERC Centres, university groups and the Met Office to model ocean circulation and the ocean carbon cycle.\r\n\r\nThis dataset contains global monthly primary production estimates derived using the Smyth et al 2005 model from SeaWiFS data." }, "onlineresource_set": [ 4034, 4035 ] }, { "ob_id": 8333, "uuid": "eedabe20877a43fb83f9f716838a5593", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landsat7etm", "numberOfFiles": 39595, "volume": 1502064611121, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n\n<p>NEODC archive</p>\n<p>Click <a href=\"http://www.neodc.rl.ac.uk/datasearch/index.php?platform_type=satellite\" target=\"_blank\">here</a> to search NEODC holdings of Landsat 7 data, or use the <a href=\"http://www.neodc.rl.ac.uk/maps/mapserver_neodc/dbox/neodc/neodc_coverage.html\">Interactive Map</a>. Some of these data are available via a <a href=\"http://ignis.neodc.rl.ac.uk/cgi-infrastructure/data_browser/data_browser/neodc/landsat7etm\">self-service download system</a> to registered users who have requested access to this dataset. Click <a href=\"http://ignis.neodc.rl.ac.uk/cgi-infrastructure/dataset_registration/dataset_info.cgi.pl?datasetid=landsat7etm\">here</a> to request access to this dataset.</p> \n\n<p>The original data producer's archive is available here: <a href=\"http://edcsns17.cr.usgs.gov/EarthExplorer/\">USGS Eros Data Centre</a></p>\n<p>Other suppliers:</p>\n\n<ul>\n<li><a href=\"http://www.infoterra-global.com\">Infoterra</a></li> \n<li><a href=\"http://www.eurimage.com\">Eurimage</a></li>\n<li><a href=\"http://www.npagroup.com\">NPA Group</a></li>\n</ul>\n</div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8332, "uuid": "c10b78c69887a4960879688e73cb37a0", "short_code": "ob", "title": "Data from LANDSAT7 ETMPLUS at Landsat7 for the Landsat Campaign", "abstract": "The Landsat 7 program uses the Enhanced Thematic Mapper plus (ETM+) and provides contiguous data from Landsat 1 program from the early 1970's to present (2012). Landsat data is widely used in many fields including geology, agriculture, resource management, climate analysis etc. The program is jointly run by the National Aeronautics and Space Administration (NASA) and the US Geological Survey (USGS). The NERC Earth Observation Data Centre (NEODC) now also holds the data." }, "onlineresource_set": [ 4042 ] }, { "ob_id": 8340, "uuid": "ccba2f7f7bf5416a8eb375afddb5035c", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/meris/data/l1b/reprocessed", "numberOfFiles": 20266, "volume": 8568413439552, "fileFormat": "Data are Envisat PDS formatted.\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8339, "uuid": "9de2a7566f88ce68250f6a9dae02df5b", "short_code": "ob", "title": "MEdium Resolution Imaging Spectrometer (MERIS): Level 1B reprocessed radiance product", "abstract": "The Medium Resolution Imaging Spectrometer (MERIS) is one of the ten instruments on board the Envisat satellite launched on the 28th of February 2002 from Kourou (French Guyana) and operated by the European Space Agency (ESA). MERIS is a 68.5 deg field-of-view nadir-pointing imaging spectrometer which measures the solar radiation reflected by the Earth in 15 spectral bands (visible and near-infrared). It obtains a global coverage of the Earth in 3 days. Its main objective is to measure the sea colour and quantify the ocean chlorophyll content and sediment, thus providing information on the ocean carbon cycle and thermal regime. It is also used to derive the cloud top height, cloud optical thickness, aerosol and water vapour column. The ground spatial resolution of the instrument is 260 m x 290 m. Only reduced resolution data (1.04 km x 1.16 km) are archived at the NEODC.\r\n\r\nThis dataset contains Level 1B reprocessed radiances MERIS product." }, "onlineresource_set": [ 4044 ] }, { "ob_id": 8348, "uuid": "9fe482560e964f70bf94ada8bbb21a62", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_05kmclay/v3-30", "numberOfFiles": 23677, "volume": 99132031823, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8347, "uuid": "a8d4ca1867333274c7c0d215fb46fc71", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 5km Cloud Layer Version 3-30 Product (CAL_LID_L2_05kmCLay-Prov-V3-30)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 5km cloud layer version 3-02 data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product at 5 km horizontal resolution, with full complement of diagnostic and quality assurance parameters. The data provide a range of parameters including vertical profile of cloud layers and optical depth. Version 3-30 was released in April, 2013. This version incorporates two ancillary input files updated from those used in versions 3-01 and 3-02: GEOS-5 processing system version 5.9.1 from version 5.2; and the enhanced Air Force Weather Authority (AFWA) Snow and Ice Datasets. The resulting changes are relatively small." }, "onlineresource_set": [ 4055 ] }, { "ob_id": 8357, "uuid": "af7c959520f646b1ad6e774ecc0c8b85", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_vfm/v3-01", "numberOfFiles": 106370, "volume": 1640180998698, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8356, "uuid": "5d5b1b2915cf3f80c3820a3ba113e1b7", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 Vertical Feature Mask Version 3-01 Product (CAL_LID_L2_VFM-ValStage1-V3-01)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 vertical feature mask version 3-01 Data Product, which describes the horizontal and vertical distribution of the cloud and the aerosol layers observed by the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP). In Version 3-01, the L2 products use an enhanced daytime calibration, improved cloud-aerosol discrimination algorithm with removal of a bug in the cloud clearing code, and the newly introduced cloud thermodynamic phase assessment algorithm." }, "onlineresource_set": [ 4070 ] }, { "ob_id": 8363, "uuid": "5f62f480a4b64114bc8263ea45bb5d9c", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_05kmapro/v3-01", "numberOfFiles": 101842, "volume": 5359005755180, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8362, "uuid": "36e5af826c26f7ed025e50318a0633d0", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 Aerosol Profile Version 3-01 Product (CAL_LID_L2_05kmAPro-Prov-V3-01)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 Aerosol Profile Version 3-01 data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product with uniform horizontal resolution of 5 km and ancillary data. There are no layer descriptors included in the datasets, and the spatial distribution of the aerosol layers depends on the aerosol layer fraction and atmospheric volume description parameters. The aerosol backscatter and extinction coefficients are obtained through the CALIPSO Lidar Ratio selection algorithm. In Version 3-01, L2 products use enhanced daytime calibration, improved cloud-aerosol discrimination algorithm with removal of a bug in the cloud clearing code, and the newly introduced cloud thermodynamic phase assessment algorithm." }, "onlineresource_set": [ 4075 ] }, { "ob_id": 8368, "uuid": "3af552c5ba41496da223032c8af82264", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l1/v3-30", "numberOfFiles": 21104, "volume": 3777734375655, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8367, "uuid": "7817708edce97e0be4a675cce0ba6a58", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 1B Version 3-30 Product (CAL_LID_L1-ValStage1-V3-30)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 1B version 3-30 data product, which contains processed Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 0 Data and post processed ephemeris data, celestial data and converted payload status data. Version 3-30 was released in April, 2013. This version incorporates two ancillary input files updated from those used in versions 3-01 and 3-02: GEOS-5 processing system version 5.9.1 from version 5.2; and the enhanced Air Force Weather Authority (AFWA) Snow and Ice Datasets. The resulting changes are relatively small." }, "onlineresource_set": [ 4080 ] }, { "ob_id": 8373, "uuid": "98b584192fa74aba8ea67bbfe4617193", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_05kmclay/v3-02", "numberOfFiles": 36958, "volume": 154754036709, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8372, "uuid": "bad30f3debe4f5525f88fba3a61e2a00", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 5km Cloud Layer Version 3-02 Product (CAL_LID_L2_05kmCLay-Prov-V3-02)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 5km Cloud Layer Version 3-02 data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product at 5 km horizontal resolution, with full complement of diagnostic and quality assurance parameters. The data provide a range of parameters including vertical profile of cloud layers and optical depth. Version 3-02 marks the transition to a new cluster computing system without any changes in the algorithm used in version 3-01. The resulting impact on the products are very minor." }, "onlineresource_set": [ 4085 ] }, { "ob_id": 8378, "uuid": "a22eae2e2db84f15bb0047be28cafd88", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_05kmapro/v3-02", "numberOfFiles": 36959, "volume": 1773125159280, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8377, "uuid": "059a3472517e0ca941a3aa41c4ffd72b", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 Aerosol Profile Version 3-02 Product (CAL_LID_L2_05kmAPro-Prov-V3-02)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 Aerosol Profile Version 3-02 data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product with uniform horizontal resolution of 5 km and ancillary data. There are no layer descriptors included in the datasets, and the spatial distribution of the aerosol layers depends on the aerosol layer fraction and atmospheric volume description parameters. The aerosol backscatter and extinction coefficients are obtained through the CALIPSO Lidar Ratio selection algorithm. Version 3-02 marks the transition to a new cluster computing system without any changes in the algorithm used in version 3-01. The resulting impact on the products are very minor." }, "onlineresource_set": [ 4090 ] }, { "ob_id": 8383, "uuid": "c4b4bddcc8a2410b957e2866b10ea7ac", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_05kmapro/v3-30", "numberOfFiles": 23679, "volume": 1136326150700, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8382, "uuid": "f6650d841a3a7b09923825d9f77c27e3", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 Aerosol Profile Version 3-30 Product (CAL_LID_L2_05kmAPro-Prov-V3-30)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 aerosol profile version 3-30 data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product with uniform horizontal resolution of 5 km and ancillary data. There are no layer descriptors included in the datasets, and the spatial distribution of the aerosol layers depends on the aerosol layer fraction and atmospheric volume description parameters. The aerosol backscatter and extinction coefficients are obtained through the CALIPSO Lidar Ratio selection algorithm. Version 3-30 was released in April, 2013. This version incorporates two ancillary input files updated from those used in versions 3-01 and 3-02: GEOS-5 processing system version 5.9.1 from version 5.2; and the enhanced Air Force Weather Authority (AFWA) Snow and Ice Datasets. The resulting changes are relatively small." }, "onlineresource_set": [ 4095 ] }, { "ob_id": 8388, "uuid": "6d1c18ab697c4918835a4f771b98ae8b", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_vfm/v3-30", "numberOfFiles": 23678, "volume": 347702921778, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8387, "uuid": "28d70f3a778068728313515d4b83ca9c", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 Vertical Feature Mask Version 3-30 Product (CAL_LID_L2_VFM-ValStage1-V3-30)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 vertical feature mask version 3-30 data product describes the horizontal and vertical distribution of the cloud and the aerosol layers observed by the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP). Version 3-30 was released in April, 2013. This version incorporates two ancillary input files updated from those used in versions 3-01 and 3-02: GEOS-5 processing system version 5.9.1 from version 5.2; and the enhanced Air Force Weather Authority (AFWA) Snow and Ice Datasets. The resulting changes are relatively small." }, "onlineresource_set": [ 4100 ] }, { "ob_id": 8393, "uuid": "d25e6357f8754857bd305d71c9b7ddbd", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l1/v3-01", "numberOfFiles": 111580, "volume": 17806287712401, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8392, "uuid": "7fa5b6824d4bff974251dfa073fd37df", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 1B Version 3-01 Product (CAL_LID_L1-ValStage1-V3-01)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 1B version 3-01 data product, which contains processed Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 0 Data and post processed ephemeris data, celestial data and converted payload status data. In version 3-01, L1B product uses enhanced daytime calibration, updated laser energy calculation algorithm, corrections to the CALIPSO orbit tracks and updated parameters." }, "onlineresource_set": [ 4105 ] }, { "ob_id": 8398, "uuid": "9d01f9c4f15c49e5b70d0acdd0c7ca29", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_01kmclay/v3-01", "numberOfFiles": 111569, "volume": 1361858851956, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8397, "uuid": "0bc0f6d2b6b422aa7ccbebd5063acca7", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 1km Cloud Layer Version 3-01 Product (CAL_LID_L2_01kmCLay-ValStage1-V3-01)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 1km cloud layer version 3-01 data product, which provides cloud data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product at 1 km horizontal resolution, with full complement of diagnostic and quality assurance parameters. The data provides range of parameters including vertical profile of cloud layers, optical depth. In Version 3-01, L2 products use enhanced daytime calibration, improved cloud-aerosol discrimination algorithm with removal of a bug in the cloud clearing code, and the newly introduced cloud thermodynamic phase assessment algorithm." }, "onlineresource_set": [ 4110 ] }, { "ob_id": 8403, "uuid": "ed9a626111f54f46910291d49fd69624", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l1/v3-02", "numberOfFiles": 36963, "volume": 5890918864302, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8402, "uuid": "11e7185a15b1845bf93cb0f2a64cdb5a", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 1B Version 3-02 Product (CAL_LID_L1-ValStage1-V3-02)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 1B version 3-02 data product, which contains processed Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 0 Data and post processed ephemeris data, celestial data and converted payload status data. Version 3-02 marks the transition to a new cluster computing system without any changes in the algorithm used in version 3-01. The resulting impact on the products are very minor." }, "onlineresource_set": [ 4115 ] }, { "ob_id": 8408, "uuid": "854c88375ce9485b963f530415fac969", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_vfm/v3-02", "numberOfFiles": 36959, "volume": 542750846248, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8407, "uuid": "85a414f72c8312439b176495ec240e0b", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 Vertical Feature Mask Version 3-02 Product (CAL_LID_L2_VFM-ValStage1-V3-02)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 vertical feature mask version 3-02 data product, which describes the horizontal and vertical distribution of the cloud and the aerosol layers observed by the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP). Version 3-02 marks the transition to a new cluster computing system without any changes in the algorithm used in version 3-01. The resulting impact on the products are very minor." }, "onlineresource_set": [ 4120 ] }, { "ob_id": 8413, "uuid": "aa989d5b04a54e66b774b91751533c50", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_05kmclay/v3-01", "numberOfFiles": 111573, "volume": 466993781179, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8412, "uuid": "283f7e60545b74713078088c4b32aedf", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 5km Cloud Layer Version 3-01 Product (CAL_LID_L2_05kmCLay-Prov-V3-01)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 5km cloud layer version 3-01 data product, which provides cloud data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product at 5 km horizontal resolution, with full complement of diagnostic and quality assurance parameters. The data provide a range of parameters including vertical profile of cloud layers and optical depth. In Version 3-01, L2 products use enhanced daytime calibration, improved cloud-aerosol discrimination algorithm with removal of a bug in the cloud clearing code, and the newly introduced cloud thermodynamic phase assessment algorithm." }, "onlineresource_set": [ 4125 ] }, { "ob_id": 8418, "uuid": "0c480f7dd6a0400d929d0f6a8ad6ad9b", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_01kmclay/v3-30", "numberOfFiles": 23672, "volume": 288688773581, "fileFormat": "Data are HDF4 formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8417, "uuid": "a9b8d9758a17059a571cc1328b51c38a", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 1km Cloud Layer Version 3-30 Product (CAL_LID_L2_01kmCLay-ValStage1-V3-30)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 1km cloud layer version 3-30 data product, which provides cloud data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product at 1 km horizontal resolution, with full complement of diagnostic and quality assurance parameters. The data provides range of parameters including vertical profile of cloud layers, optical depth. Version 3-30 was released in April, 2013. This version incorporates two ancillary input files updated from those used in versions 3-01 and 3-02: GEOS-5 processing system version 5.9.1 from version 5.2; and the enhanced Air Force Weather Authority (AFWA) Snow and Ice Datasets. The resulting changes are relatively small." }, "onlineresource_set": [ 4130 ] }, { "ob_id": 8423, "uuid": "aa38bf3287364ffa947e8e2524bf8c10", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/caliop/data/l2_01kmclay/v3-02", "numberOfFiles": 36959, "volume": 450773160272, "fileFormat": "Data are HDF4 formatted ", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8422, "uuid": "1ebd672eb076dd95cb00462f24274447", "short_code": "ob", "title": "CALIPSO: Cloud and Aerosol Lidar Level 2 1km Cloud Layer Version 3-02 Product (CAL_LID_L2_01kmCLay-ValStage1-V3-02)", "abstract": "The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) was a joint-mission between NASA and the French space agency Centre National d'Etudes Spatiales. The main objectives of the mission was to supply unique data set of vertical cloud and aerosol profiles.\r\n\r\nThis dataset contains cloud and aerosol lidar level 2 1km cloud layer version 3-02 data product, which provides cloud data derived from Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) Level 1B product at 1 km horizontal resolution, with full complement of diagnostic and quality assurance parameters. The data provides range of parameters including vertical profile of cloud layers, optical depth. Version 3-02 marks the transition to a new cluster computing system without any changes in the algorithm used in version 3-01. The resulting impact on the products are very minor." }, "onlineresource_set": [ 4135 ] }, { "ob_id": 8429, "uuid": "469f74da992c408eac54ede88d8712e1", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/avhrr_gac/data/l1b/", "numberOfFiles": 842545, "volume": 25451669756595, "fileFormat": "<div property=\"cedacat:formats\">\r\n<div class=\"formats\">Data availability and file format</div>\r\n<p>NOAA Level 1B (following FGGE terminology) is raw data that have been quality controlled, assembled into discrete data sets, and to which Earth location and calibration information have been appended (but not applied).</p>\r\n\r\n<p>Software is available, free of charge, which may assist you in viewing data from AVHRR instruments:\r\n</p><ul>\r\n<li><a href=\"http://www.brockmann-consult.de/cms/web/beam\">BEAM</a>: BEAM is an open-source toolbox and development platform for viewing, analysing and processing of remote sensing raster data. Originally developed to facilitate the utilisation of image data from Envisat's optical instruments, BEAM now supports a growing number data formats of other EO sensors such as <strong>AVHRR</strong>.</li>\r\n</ul>\r\n<p />\r\n</div>", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8428, "uuid": "1105a30c49a01dde0032515cadb056ad", "short_code": "ob", "title": "Advanced Very High Resolution Radiometer (AVHRR) Global Area Coverage (GAC) Level 1B data", "abstract": "4km resolution Global Area Coverage (GAC) Advanced Very High Resolution Radiometer (AVHRR) Level 1B data are available from 1978 - 2013 for the whole globe from NOAA satellites 06 through 12, 14 through 19 and Tiros-N, and from Metop A and B." }, "onlineresource_set": [ 4146 ] }, { "ob_id": 8438, "uuid": "3eeb53912e73408ca68debfbacae6ad2", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/casix/kriged_TOPEX/data", "numberOfFiles": 13, "volume": 970538151, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8437, "uuid": "8a846281c530e892e01bfb43e96f439b", "short_code": "ob", "title": "CASIX TOPEX: kriged monthly mean ocean circulation data", "abstract": "TOPography EXperiment (TOPEX) for ocean circulation (otherwise known as Poseidon) was launched on August 10, 1992 and was a joint satellite mission between NASA, the U.S. space agency, and CNES, the French space agency, to map ocean surface topography. The first major oceanographic research vessel to sail into space, TOPEX/Poseidon helped revolutionise oceanography by proving the value of satellite ocean observations.\r\n\r\nThis dataset contains monthly means on a 1x1 latitude/longitude grid for 12 years (1993-2004). The data contains the following parameters: wind speed, squared wind speed, cubed wind speed, wind speed * significant wave height, significant wave height, 1/sigma0(Ku) and gas transfer velocity. TOPEX/Poseidon was a joint mission from the National Aeronautics and Space Administration (NASA), the U.S. space agency and the French space agency.\r\n\r\nThe dataset was produced by Fangohr, S. and D.K. Woolf of SOCS, as part of the NERC programme's Centre for observation of Air-Sea Interactions and FluXes (CASIX) and National Centre for Earth Observation (NCEO)." }, "onlineresource_set": [ 4154 ] }, { "ob_id": 8442, "uuid": "8490710bb2a746d4a1a178b6e7f47635", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/avhrr_fasir/fasir_biophys_monthly_xdeg", "numberOfFiles": 179, "volume": 610400985, "fileFormat": "Data are ASCII formatted.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8441, "uuid": "da9288387796a9b80c619c611f330a58", "short_code": "ob", "title": "International Satellite Land Surface Climatology Project Initiative II: VHRR FASIR at unknown computer", "abstract": "The Fourier-Adjusted, Sensor and Solar zenith angle corrected, Interpolated, Reconstructed (FASIR) adjusted Normalized Difference Vegetation Index (NDVI) dataset was detected with the Advanced Very High Resolution Radiometer (AVHRR) on-board the MetOp satellites. Derived biophysical parameter fields were generated to provide a 17-year satellite record of monthly changes in the photosynthetic activity of terrestrial vegetation. This dataset was produced and provided by Dr. Sietse Los from the Department of Geography, University of Wales at Swansea." }, "onlineresource_set": [ 4155 ] }, { "ob_id": 8447, "uuid": "21a1b5236e7a45e6818aacaba5fefb7b", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/avhrr_fasir/fasir_ndvi_monthly_xdeg", "numberOfFiles": 38, "volume": 146139495, "fileFormat": "Data are ASCII formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8446, "uuid": "c025eb1cb62acf6fc099c3450311772b", "short_code": "ob", "title": "International Satellite Land Surface Climatology Project Initiative II: AVHRR series at NOAA polar orbiting satellites", "abstract": "The Fourier-Adjusted, Sensor and Solar zenith angle corrected, Interpolated, Reconstructed (FASIR) adjusted Normalized Difference Vegetation Index (NDVI) dataset was detected with the Advanced Very High Resolution Radiometer (AVHRR) on-board the MetOp satellites. Derived biophysical parameter fields were generated to provide a 17-year satellite record of monthly changes in the photosynthetic activity of terrestrial vegetation. This dataset was produced and provided by Dr. Sietse Los from the Department of Geography, University of Wales at Swansea." }, "onlineresource_set": [ 4156 ] }, { "ob_id": 8457, "uuid": "2c04470cfbb24a09aa470f80814a0316", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/nceo-cryosphere/data/circumpolar-ice-thickness", "numberOfFiles": 2, "volume": 3301, "fileFormat": "BADC-CSV formatted file\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8456, "uuid": "89a6078465eca969d258a069647ec120", "short_code": "ob", "title": "Theme 5 (Cryosphere and Polar Oceans) Sea Ice Elevation and Thickness and Ice Sheet Elevation Change: ENVISAT Radar Altimeter 2 (RA-2) 5-year Time Series (2002-2008) of Ice Thickness data", "abstract": "Theme 5 - Cryosphere and Polar Oceans - of the National Centre for Earth Observation (NCEO) is aimed at resolving uncertainties in future climate and sea-level arising from behaviour of the cryosphere. Under this theme, 5 year time series Ice thickness data used by Katharine Giles, Seymour Laxon and Andy Ridout in their paper \"Circumpolar thinning of Arctic sea ice following the 2007 record ice extent minimum\" (Geophysical Research Letters, Vol. 35, L22502, doi:10.1029/2008GL035710, 2008) are presented." }, "onlineresource_set": [ 4158 ] }, { "ob_id": 8460, "uuid": "f6bfbb5133d44b0ba1a72953f5b8a064", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/shac2000/", "numberOfFiles": 108, "volume": 95746468209, "fileFormat": "Data are ENVI formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8459, "uuid": "a00b9dcac27b6633874b6879b5537a83", "short_code": "ob", "title": "SHAC2000: E-Synthetic Aperture Radar measurements at DLR Aircraft 2", "abstract": "Data from the Synthetic Aperture Radar and Hyperspectral Airborne campaign (SHAC) run by the Natural Environment Research Council (NERC) and the British National Space Centre (BNSC). The campaign intended to provide support for industrial and academic research into earth resource and environmental monitoring. The campaign was managed by NRSC- now Infoterra. Fourteen different locations were flown in May and June 2000 in the campaign (see Fig.1), logistical constraints requiring two aircraft be used to fly the two instruments individually." }, "onlineresource_set": [ 4161 ] }, { "ob_id": 8538, "uuid": "94d3e513891a415f926a8db16c473c8b", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/mipas/data/l1b", "numberOfFiles": 0, "volume": 0, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": null, "onlineresource_set": [ 4181 ] }, { "ob_id": 8544, "uuid": "9bcb98fea6e04e5b9dbeea1cc2d93717", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/mipas/data/l2/reprocessed/v4", "numberOfFiles": 3260, "volume": 30404914554, "fileFormat": "Data are Envisat formatted. ", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8543, "uuid": "1d700e888e08a686f302ba31572429de", "short_code": "ob", "title": "MIPAS ENVISAT Level 2 data (July 2002 - March 2004) Processor version IPF v4", "abstract": "Level 2 processing consolidated and reprocesses data from July 2002 to March 2004 from the Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) instrument on the ENVISAT satellite operated by the European Space Agency (ESA)." }, "onlineresource_set": [ 4183 ] }, { "ob_id": 8549, "uuid": "34a4e0e4307a4bd68a456cfc850207f2", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/feature/building_heights", "numberOfFiles": 7910, "volume": 2637781060, "fileFormat": "Data are available as shapefiles, which comprise of .shp, .shx and .dbf files.\r\n\r\nshp - shape format; the feature geometry itself\r\nshx - shape index format; a positional index of the feature geometry to allow seeking forwards and backwards quickly\r\ndbf - attribute format; columnar attributes for each shape, in dBase IV format\r\n\r\nAlso provided are prj, sbn, sbx and xml files.\r\nprj - projection format; the coordinate system and projection information, a plain text file describing the projection\r\nsbn and sbx - a spatial index of the features\r\nxml - location and other associated information\r\n\r\nFree software can be used to open shapefiles, such as Quantum GIS (QGIS) or User-friendly Desktop Internet GIS (uDig) - see links on this record.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8548, "uuid": "e1449eac35108b49d3a0af26bb6d2060", "short_code": "ob", "title": "UK building heights", "abstract": "A database of building heights for the main conurbations of the UK, acquired by the Landmap project from The GeoInformation Group's Cities Revealed project. The height information is derived principally from the Cities Revealed LiDAR or Modern aerial imagery (see linked datasets). Each building block has three values: base of building above sea level, top of the building above sea level and height of building above local ground level. Accurate to +/- 0.5m with 95% confidence limits.\r\n\r\nThe Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was buildings data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Cities Revealed © The GeoInformation Group yyyy" }, "onlineresource_set": [ 4190 ] }, { "ob_id": 8553, "uuid": "8e445826aee04ba795861e9f00be2aac", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/feature/building_class_100x100km", "numberOfFiles": 4494, "volume": 3240512447, "fileFormat": "Data are available as shapefiles in 100x100km tiles. The location of the tiles can be determined by the key provided with the data. The shapefiles comprise of .shp, .shx and .dbf files.\r\n\r\nshp - shape format; the feature geometry itself\r\nshx - shape index format; a positional index of the feature geometry to allow seeking forwards and backwards quickly\r\ndbf - attribute format; columnar attributes for each shape, in dBase IV format\r\n\r\nAlso provided are prj, sbn, sbx and xml files.\r\n\r\nprj - projection format; the coordinate system and projection information, a plain text file describing the projection\r\nsbn and sbx - a spatial index of the features\r\nxml - location and other associated information\r\n\r\nFree software can be used to open shapefiles, such as Quantum GIS (QGIS) or User-friendly Desktop Internet GIS (uDig) - see links.\r\n\r\nThe classifications found in the attribute table (dbf files) of the shapefiles can be identified using this building class reference sheet (see links). There are 9 Age categories and 19 Type categories. Not all the Age/Type combinations are used, for example there are no Early and Middle Victorian very tall flats (point blocks) in the current edition of the classification (Version 6 September 2012). The current database for the UK does not contain Age categories 1 and 2 and only one type for Age 8. Also the type categories of Medium Height flats 5-6 storeys (3), Tall Terraces 3-4 storeys (5) and Very Large Detached Houses, Sometimes converted to flats (15) have been removed. These are all indicated by the DNU label in the classification sheet. More information can be found on in the The GeoInformation Group guide to the building class dataset (see links).", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8552, "uuid": "cf27c81e7f54c3701899017d1b810f81", "short_code": "ob", "title": "UK building classes", "abstract": "The Building Class data provides detailed information about residential housing types including the house age and structural type. This information can be used for urban regeneration studies, crime monitoring, urban flooding and urban gardens. These data were collected by The GeoInformation Group (TGG), primarily through interpretation of high-resolution aerial photography, as part of the Cities Revealed project. The data were subsequently acquired by the Landmap project.\r\n\r\nThe Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was buildings data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Cities Revealed © The GeoInformation Group yyyy" }, "onlineresource_set": [ 4195 ] }, { "ob_id": 8557, "uuid": "96437178093a40c38972a56047c4733c", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/feature/building_blocks", "numberOfFiles": 952, "volume": 1855396114, "fileFormat": "<div property=\"cedacat:formats\">\r\n\r\nData are available as shapefiles, which comprise of .shp, .shx and .dbf files. \r\n<ul>\r\n<li>shp - shape format; the feature geometry itself</li>\r\n<li>shx - shape index format; a positional index of the feature geometry to allow seeking forwards and backwards quickly</li>\r\n<li>dbf - attribute format; columnar attributes for each shape, in dBase IV format</li>\r\n</ul>\r\nAlso provided are prj, sbn, sbx and xml files.\r\n<ul>\r\n<li>prj - projection format; the coordinate system and projection information, a plain text file describing the projection</li>\r\n<li>sbn and sbx - a spatial index of the features</li>\r\n<li>xml - location and other associated information</li>\r\n</ul>\r\nFree software can be used to open shapefiles, such as <a href=\"http://www.qgis.org/en/site/\">Quantum GIS (QGIS)</a> or <a href=\"http://udig.refractions.net/\">User-friendly Desktop Internet GIS (uDig)</a>.<p>\r\n</p>\r\nThe classifications attributes found in the attribute table (dbf files) of the shapefiles can be identified using this <a href=\"http://www.geoinformationgroup.co.uk/wp-content/uploads/2011/05/Building-Class-Reference-Sheet-V4-May-11.pdf\">building class reference sheet</a>. There are 9 Age categories and 19 Type categories. Not all the Age/Type combinations are used, for example there are no Early and Middle Victorian very tall flats (point blocks) in the current edition of the classification (Version 6 September 2012). The current database for the UK does not contain Age categories 1 and 2 and only one type for Age 8. Also the type categories of Medium Height flats 5-6 storeys (3), Tall Terraces 3-4 storeys (5) and Very Large Detached Houses, Sometimes converted to flats (15) have been removed. These are all indicated by the DNU label in the classification sheet. More information can be found on in the The GeoInformation Group <a href=\"http://badc.nerc.ac.uk/browse/neodc/landmap/documents/Building_Class_Notes_2012.pdf\">guide to the building class dataset (link here)</a>. All building blocks have also have a height attribute, HGT, this value is the height of the building blocks from the base to the top of the building. In some cases this information is not supplied and presented as 0.</p>\r\n</div>\r\n\r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8556, "uuid": "a65271e219166c827c1724d96172c014", "short_code": "ob", "title": "UK building blocks", "abstract": "This dataset is a combination of the The GeoInformation Groups' Cities Revealed UK building heights and UK individual building classes datasets, although height information is lacking for some buildings, so users may wish to check the UK building heights database in these cases. This dataset provides outlines of building blocks with height information derived from the Cities Revealed LiDAR surveys, high-resolution aerial photography and other height data sources combined with Building Class data. The data were acquired by the Landmap project from The GeoInformation Group (TGG). The Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was buildings data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nWhen using these data please also add the following copyright statement: Cities Revealed © The GeoInformation Group yyyy" }, "onlineresource_set": [ 4203 ] }, { "ob_id": 8561, "uuid": "be1d2d8478884abc871e35cdc048594a", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landmap/data/feature/kgps", "numberOfFiles": 188, "volume": 74647258, "fileFormat": "Data are available as shapefiles, which comprise of .shp, .shx and .dbf files.\r\n\r\nshp - shape format; the feature geometry itself\r\nshx - shape index format; a positional index of the feature geometry to allow seeking forwards and backwards quickly\r\ndbf - attribute format; columnar attributes for each shape, in dBase IV format\r\n\r\nAlso provided are prj, sbn, sbx and xml files.\r\nprj - projection format; the coordinate system and projection information, a plain text file describing the projection\r\nsbn and sbx - a spatial index of the features\r\nxml - location and other associated information\r\n\r\nFree software can be used to open shapefiles, such as Quantum GIS (QGIS) or User-friendly Desktop Internet GIS (uDig) (see links on this record).\r\n\r\nData are available by day or by campaign. kgps_all_circular and kgps_all_linear files represent all the data for the the first and second campaigns respectively. kgps_dayX where X is a number from 1 to 155 represent the data for a particular day of the campaigns. Days 1 through 13 inclusive represent campaign 1 and days 144 through 155 inclusive represent campaign 2.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8560, "uuid": "6317f5fec38112c203357a6ec7270bf4", "short_code": "ob", "title": "Kinematic GPS (KGPS) data for UK roads", "abstract": "The Kinematic GPS (KGPS) data provide accurate high-resolution locational data of approximately 6400 km of roads in Great Britain using circular and/or linear transect data collected during two fieldwork campaigns (details below) carried out by the Landmap project team in order to validate the various Landmap image and elevation products. When processed, this data yields accurate 3-D coordinates that can be used for quality assessment purposes. Kinematic GPS is a technique used to enhance the precision of standard GPS, using a reference receiver of known location, such as a main road, to make corrections to the standard GPS-determined location yielding centimetre-level accuracy.\r\n\r\nThe Joint Information Systems Committee (JISC) funded Landmap service which ran from 2001 to July 2014 collected and hosted a large amount of earth observation data for the majority of the UK, part of which was buildings data. After removal of JISC funding in 2013, the Landmap service is no longer operational, with the data now held at the NEODC.\r\n\r\nCampaign 1\r\n\r\nThe first campaign, carried out in September 1999, required the kinematic GPS profiles for a number of pre-defined circular routes. This suited a 'Real-time Kinematic' (RTK-GPS) survey technique in which both GPS code pseudorange and carrier-phase measurements are recorded. This method is capable of yielding sub-decimetre accuracy over short baselines, generally less than 50 km.\r\n\r\nThe observing schedule was such that the reference receiver was established at a location deemed to be the centroid of the day's route so that the baseline distances from the 'local' reference receiver to mobile receiver would be kept to a minimum preventing the accumulation of distance-dependent errors. The mobile receiver would then be driven along the predefined route recording satellite observations at a rate of 5 Hz. Once the route was completed, the local reference station team was picked up and the entire team prepared to observe the next scheduled loop.\r\n\r\nThe mobile team covered almost 4,000 miles during the 14 days of the first campaign with the predefined circular routes representing some 2,800 miles (4,506km) of that total.\r\n\r\nCampaign 2\r\n\r\nThe second campaign which took place during May and June of 2000 was geared to a different set of objectives and therefore had an observing schedule different to that of the first campaign. There was a requirement to observe some long GPS profiles that would essentially span a number of satellite-pass strips / several stereo-pair strips permitting some checking of the strip matching procedures using orthorectification techniques.\r\n\r\nThe establishment of a 'local' reference receiver station alongside each section of these proposed transects would have been too demanding in both time and logistics so an alternative processing approach was decided upon. The observing procedure was identical to that of the first campaign with the exception that the 'local' reference receiver remained in the same location for the duration of the campaign. A high-precision geodetic GPS receiver was established at a point of known co-ordinates at University College London where it collected GPS observations for the 9 days of this second campaign. The mobile receiver was driven along the required profiles recording data at a rate of 5Hz.\r\n\r\nThe routes followed for this second campaign contained a number of features as requested by the SPOT processing team that would aid them in their orthorectification tasks. One particular request was that a number of crossovers should be performed at major junctions whereby a mile or two of additional observations were taken on the feeder roads for the junction in question. Such manoeuvres provide the processing / imaging team with a greater number of features to identity and refer to as part of their orthorectification quality assessment routines. The nature of the road network in some areas meant that several long stretches of road were retraced or intersected which allowed some error checking." }, "onlineresource_set": [ 4211 ] }, { "ob_id": 8568, "uuid": "e9f3244bc7234084b3045968b110c3cf", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/iasi_metop_a/data/l1c", "numberOfFiles": 126397, "volume": 261751370793622, "fileFormat": "Data are in Eumetsat native format", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [ { "ob_id": 32893, "uuid": "0d90b768e73b41a6843b0670b78b9bc9", "short_code": "result", "title": null, "abstract": null } ], "observation": { "ob_id": 8567, "uuid": "ea46600afc4559827f31dbfbb8894c2e", "short_code": "ob", "title": "IASI atmospheric spectra (L1C product) from the EPS Metop-A satellite: CEDA mirror archive for STFC, NCAS, NCEO", "abstract": "This dataset contains level 1C data products from the Infrared Atmospheric Sounding Interferometer (IASI) instrument onboard the Eumetsat EPS Metop-A satellite. \r\n\r\nIASI was designed to measure the infrared spectrum emitted by the earth. IASI provides infrared soundings of the temperature profiles in the troposphere and lower stratosphere, moisture profiles in the troposphere, as well as some of the chemical components playing a key role in the climate monitoring, global change and atmospheric chemistry. The IASI L1c product contains infra-red radiance spectra at the 0.5cm-1 resolution, covering the range between 645.0 cm-1 and 2760 cm-1\r\n\r\nThis data set contains both the original processed data and reprocessed archive. In the following directories based on processing algorithm. Please see information under the process tab for further information. Please note an erratum has been raised in relation to 2017 data please see the Ten-Year Assessment of IASI Radiance and Temperature in the documentation section.\r\n\r\nThis data has been provided by EUMETSAT to CEDA to support access to active scientists from the following institutions only \r\n\r\n- The Science and Technology Facilities Council (STFC)\r\n- The National Centre for Earth Observation (NCEO)\r\n- The National Centre for Atmospheric Science (NCAS)\r\n\r\nIf you are from one of these institutions, please apply for access below and follow the instructions. If you are not from one of these institutions, please go to the documentation section for the relevant link to the EUMETSAT EO portal where you can obtain the data directly." }, "onlineresource_set": [ 4223 ] }, { "ob_id": 8573, "uuid": "0a569ddaa6254777a052a9c18bb3883f", "short_code": "result", "curationCategory": "C", "dataPath": "/neodc/iasi/data/l2", "numberOfFiles": 0, "volume": 0, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": null, "onlineresource_set": [ 4226 ] }, { "ob_id": 8579, "uuid": "1f94a08f82be4d1e949b38f3b32dd21f", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/landsat45tm", "numberOfFiles": 10815, "volume": 109062676522, "fileFormat": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n<p> NEODC archive is available <a href=\"http://www.neodc.rl.ac.uk/datasearch/index.php?platform_type=satellite\" target=\"_blank\">here</a> to search NEODC holdings of Landsat 4 &amp; 5 TM data or use the <a href=\"http://www.neodc.rl.ac.uk/maps/mapserver_neodc/dbox/neodc/neodc_coverage.html\">Interactive Map</a></p>\n\n<p>To browse the original data producer's archive click here: <a href=\"http://edcsns17.cr.usgs.gov/EarthExplorer/\">USGS Eros Data Centre</a>.</p>\n<p>Other suppliers are available here:</p>\n<ul>\n<li><a href=\"http://www.infoterra-global.com\">Infoterra</a></li>\n<li><a href=\"http://www.eurimage.com\">Eurimage</a></li>\n<li><a href=\"http://www.npagroup.com\">NPA Group</a></li>\n</ul>\n\n<p>The file format is ESA CEOS Landsat format - Details on how to open those types of files is available at <a href=\"http://geol.hu/data/online_help/Opening_External_Files.html\">http://geol.hu/data/online_help/Opening_External_Files.html</a>\n\n</p></div>\n\n\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8578, "uuid": "9399794eafb50c208428eda6fa7e5cc6", "short_code": "ob", "title": "Data from Thematic Mapper (LS5) at Landsat5 for the Landsat Campaign", "abstract": "Landsat 4 and Landsat 5 carry both the TM (thematic mapper) and the MSS (multi-spectral scanner) sensors, though routine collection of MSS data was terminated in late 1992. The satellites orbit at an altitude of 705 km and provide a 16-day, 233-orbit cycle with a swath overlap that varies from 7 percent at the Equator to nearly 84 percent at 81 degrees north or south latitude. Landsat data is widely used in many fields including geology, agriculture, resource management, climate analysis etc. The Landsat program is jointly managed by the National Aeronautics and Space Administration (NASA) and the US Geological Survey (USGS). The NERC Earth Observation Data Centre (NEODC) now also holds the data." }, "onlineresource_set": [ 4233 ] }, { "ob_id": 8586, "uuid": "bc3d2026acf643bfb35a9993c62f84e5", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/nceo-carbon/data/ST6-ocean_biogeochemistry/Global-PSC-Climatologies/monthly-10yr-climatology/", "numberOfFiles": 25, "volume": 2693476648, "fileFormat": "NetCDF data files and Associated maps are stored as png files.\r\n\r\nA metadata file is associated with the files in the archive. \r\n\r\n", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8585, "uuid": "7201151d40683a4420da90c30640d4fa", "short_code": "ob", "title": "Theme 2 Sub Theme 6: Global Phytoplankton Size Class (PSC) 10 Year Monthly Climatology (1997-2007) from Plymouth Marine Laboratory using SeaWiFS satellite", "abstract": "This dataset contains the fractional contributions of three phytoplankton size classes (micro-, nano- and picoplankton) over the globe for the period 1997-2007, as produced by the Plymouth Marine Laboratory (PML) using SeaWIFs data. A 10 year monthly climatology is available together with accompanying maps. This dataset was produced as part of the National Centre for Earth Observation (NCEO) Theme 2 programme (Monitoring, Diagnosis and Prediction of the Global Carbon-Cycle), Quantification of ocean biogeochemistry and carbon fluxes sub-theme 6 (ST6)." }, "onlineresource_set": [ 4234 ] }, { "ob_id": 8590, "uuid": "1cc0645d49ec425d84b845ef331d220f", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/nceo-carbon/data/ST6-ocean_biogeochemistry/Global-PSC-Climatologies/monthly-composites/", "numberOfFiles": 249, "volume": 27845290569, "fileFormat": "Data are netCDF formatted. Images are PNG formatted.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8589, "uuid": "a91ae89c4c6d011f84cdfbc3d41a73c8", "short_code": "ob", "title": "Theme 2 Sub Theme 6: Global Phytoplankton Size Class (PSC) Monthly (Composites) Climatology (1997-2007) from Plymouth Marine Laboratory using SeaWiFS satellite", "abstract": "This dataset contains the fractional contributions of three phytoplankton size classes (micro-, nano- and picoplankton) in monthly averages over the globe for the period 1997-2007, as produced by the Plymouth Marine Laboratory (PML) using SeaWIFs data (The dataset was produced by the Plymouth Marine Laboratory by applying the algorithm of Brewin et al. (2010) directly to monthly SeaWiFS Level 3 composites of chlorophyll on a pixel-by-pixel basis.). A 10 year monthly climatology is also available as a separate dataset. Accompanying maps are available. This dataset was produced as part of the National Centre for Earth Observation (NCEO) Theme 2 programme (Monitoring, Diagnosis and Prediction of the Global Carbon-Cycle), Quantification of ocean biogeochemistry and carbon fluxes sub-theme 6 (ST6).\r\n" }, "onlineresource_set": [ 4238 ] }, { "ob_id": 8593, "uuid": "8a403deebfc246389bd24b0c09256b7b", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/mipas-oxford/data/v1.02-v1.10/", "numberOfFiles": 2031, "volume": 5330898791, "fileFormat": "Data are netCDF formatted", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8592, "uuid": "2d14cb23b3318b12c0aea374998e4a4d", "short_code": "ob", "title": "Atmospheric Retrievals from MIPAS/Envisat at Oxford v1.02-1.10", "abstract": "This dataset contains atmospheric profiles from the Michelson Interferometer for Passive Atmospheric Sounding (MIPAS) on Envisat, processed with the Oxford L2 retrieval algorithm MORSE. This differs from the European Space Agency L2 products in that it uses an optimal estimation approach rather than a regularised least squares fit, and has additional molecules.\r\n\r\nThe dataset was produced by Anu Dudhia, University of Oxford and National Centre for Earth Observation (NCEO)." }, "onlineresource_set": [ 4240 ] }, { "ob_id": 8600, "uuid": "5fe08d1098564084a18d846acc03103e", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/mipas-oxford/data/v1.2", "numberOfFiles": 0, "volume": 0, "fileFormat": "Data are netCDF formatted.", "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": null, "onlineresource_set": [ 4242 ] }, { "ob_id": 8606, "uuid": "aaeb4e65c712484bbb15eccac432cf57", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arsf/2005/GB05_16", "numberOfFiles": 83, "volume": 3066318894, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8605, "uuid": "cc6667594524567e5983e60ae1dd901d", "short_code": "ob", "title": "Data from the Photographic Camera on-board the Dornier Do228-101 D-CALM Aircraft during Flight GB05/16 over the Birmingham Area", "abstract": "The Airborne Research & Survey Facility (ARSF, formerly Airborne Remote Sensing Facility) is managed by NERC Scientific Services and Programme Management. It provides the UK environmental science community, and other potential users, with the means to obtain remotely-sensed data in support of research, survey and monitoring programmes. The ARSF is a unique service providing environmental researchers, engineers and surveyors with synoptic analogue and digital imagery of high spatial and spectral resolution.The NEODC holds the entire archive of Airborne Thematic Mapper (ATM) and Compact Airborne Spectrographic Imager (CASI) data acquired by the NERC ARSF. High-resolution scanned digital versions of the entire collection of analogue photographs are now also available as well as selected LiDAR-derived elevation and terrain models for selected sites flown using the sensor." }, "onlineresource_set": [ 4249 ] }, { "ob_id": 8611, "uuid": "ad49fcc709df44cca1c97aab98529cbc", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arsf/2005/GB05_15", "numberOfFiles": 17, "volume": 1076464500, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8610, "uuid": "e5938408feda66eb33be96b4159d1dfd", "short_code": "ob", "title": "Data from the Photographic Camera on-board the Dornier Do228-101 D-CALM Aircraft during Flight GB05/15 over the Fingringhoe Area", "abstract": "The Airborne Research & Survey Facility (ARSF, formerly Airborne Remote Sensing Facility) is managed by NERC Scientific Services and Programme Management. It provides the UK environmental science community, and other potential users, with the means to obtain remotely-sensed data in support of research, survey and monitoring programmes. The ARSF is a unique service providing environmental researchers, engineers and surveyors with synoptic analogue and digital imagery of high spatial and spectral resolution.The NEODC holds the entire archive of Airborne Thematic Mapper (ATM) and Compact Airborne Spectrographic Imager (CASI) data acquired by the NERC ARSF. High-resolution scanned digital versions of the entire collection of analogue photographs are now also available as well as selected LiDAR-derived elevation and terrain models for selected sites flown using the sensor." }, "onlineresource_set": [ 4250 ] }, { "ob_id": 8615, "uuid": "77ecc4baff0b454eb43139f0b230fd28", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arsf/2005/GB2004_21", "numberOfFiles": 44, "volume": 9081740221, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8614, "uuid": "051cdaeffee9a0405e0f202784d3ca5a", "short_code": "ob", "title": "Data from the CASI-2 Instrument on-board the Dornier Do228-101 D-CALM Aircraft during Flight GB2004/21 over the Chilbolton Area", "abstract": "ARSF project GB2004/21: Airborne Ozone LIDAR Validation Study. PI: Jim McQuaid. Site: Chilbolton." }, "onlineresource_set": [ 4251 ] }, { "ob_id": 8619, "uuid": "968b72695de442be819dfd174021cf2f", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arsf/2005/MC04_09", "numberOfFiles": 11, "volume": 2961118737, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8618, "uuid": "8c81d9a18b46bc4cae5eb5e4a403cfee", "short_code": "ob", "title": "Data from the Optech LIDAR Instrument on-board the Dornier Do228-101 D-CALM Aircraft during Flight MC04/09 over the Idrija and Ravne Faults, Slovenia", "abstract": "ARSF project MC04/09: LiDAR Mapping of Seismogenic Faults in NW Slovenia. PI: Dickson Cunningham. Site: Idrija and Ravne." }, "onlineresource_set": [ 4253, 4252 ] }, { "ob_id": 8624, "uuid": "ece9d19f8f074658ae06ede2edb12de2", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arsf/2004/03_28", "numberOfFiles": 25, "volume": 2053650375, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8623, "uuid": "98194cf6dd5d071472408a9215bb285c", "short_code": "ob", "title": "Data from the ATM AZ-16 Instrument on-board the Dornier Do228-101 D-CALM Aircraft during Flight 03/28 over the Bath Area", "abstract": "ARSF project 03/28 led by Kayte Royse. Site: Bath." }, "onlineresource_set": [ 4254 ] }, { "ob_id": 8629, "uuid": "4f8896c1e4244ec99eb01e32374ca695", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arsf/2004/03_20", "numberOfFiles": 9, "volume": 600602880, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8628, "uuid": "e58e7d80632152d0be29434bdf46ee77", "short_code": "ob", "title": "Data from the ATM AZ-16 Instrument on-board the Dornier Do228-101 D-CALM Aircraft during Flight 03/20 for the Glass Sat Cal Project", "abstract": "The Airborne Research & Survey Facility (ARSF, formerly Airborne Remote Sensing Facility) is managed by NERC Scientific Services and Programme Management. It provides the UK environmental science community, and other potential users, with the means to obtain remotely-sensed data in support of research, survey and monitoring programmes. The ARSF is a unique service providing environmental researchers, engineers and surveyors with synoptic analogue and digital imagery of high spatial and spectral resolution.The NEODC holds the entire archive of Airborne Thematic Mapper (ATM) and Compact Airborne Spectrographic Imager (CASI) data acquired by the NERC ARSF. High-resolution scanned digital versions of the entire collection of analogue photographs are now also available as well as selected LiDAR-derived elevation and terrain models for selected sites flown using the sensor." }, "onlineresource_set": [ 4255 ] }, { "ob_id": 8633, "uuid": "fb287f93f8ff47f0a5781ece396c3fe9", "short_code": "result", "curationCategory": "A", "dataPath": "/neodc/arsf/2004/04_999", "numberOfFiles": 42, "volume": 1613664441, "fileFormat": null, "storageStatus": "online", "storageLocation": "internal", "oldDataPath": [], "observation": { "ob_id": 8632, "uuid": "2ec76fed8a28e699625c17acc43cf303", "short_code": "ob", "title": "Data from the Photographic Camera on-board the Dornier Do228-101 D-CALM Aircraft during Test Flight 04/999 over the Monks Wood Area", "abstract": "The Airborne Research & Survey Facility (ARSF, formerly Airborne Remote Sensing Facility) is managed by NERC Scientific Services and Programme Management. It provides the UK environmental science community, and other potential users, with the means to obtain remotely-sensed data in support of research, survey and monitoring programmes. The ARSF is a unique service providing environmental researchers, engineers and surveyors with synoptic analogue and digital imagery of high spatial and spectral resolution.The NEODC holds the entire archive of Airborne Thematic Mapper (ATM) and Compact Airborne Spectrographic Imager (CASI) data acquired by the NERC ARSF. High-resolution scanned digital versions of the entire collection of analogue photographs are now also available as well as selected LiDAR-derived elevation and terrain models for selected sites flown using the sensor." }, "onlineresource_set": [ 4256 ] } ] }