- Home
- Collection search
Collection Search
-
First ISCCP Regional Experiment (FIRE) Atlantic Stratocumulus Transition Experiment (ASTEX) Centre Meteorologie Spatiale (CMS) Daily Solar Irradiance Data
https://cmr.earthdata.nasa.gov/search/concepts/C1000000981-LARC_ASDC.xmlDescription:The First ISCCP Regional Experiments have been designed to improve data products and cloud/radiation parameterizations used in general circulation models (GCMs). Specifically, the goals of FIRE are (1) to improve basic understanding of the interaction of physical processes in determining life cycles of cirrus and marine stratocumulus systems and the radiative properties of these clouds during their life cycles and (2) to investigate the interrelationships between the ISCCP data, GCM parameterizations, and higher space and time resolution clouddata.To-date, four intensive field-observation periods were planned and executed: a cirrus IFO (October 13 - November 2, 1986); a marine stratocumulus IFO off the southwestern coast of California (June 29 - July 20, 1987); a second cirrus IFO in southeastern Kansas (November 13 - December 7, 1991); and a second marine stratocumulus IFO in the eastern North Atlantic Ocean (June 1 - June 28, 1992). Each mission combined coordinated satellite, airborne, and surface observations with modeling studies to investigate the cloud properties and physical processes of the cloud systems.These files are calculations of the daily solar irradiance at the surface, based on observations by the METEOSAT. The file naming convention is: esqDDMMYYx.fis where DDMMYY is the dateThese files are: I2 pixels, 376 pixels/row, 326 rows. Each pixel has a spatial resolution of 0.04 degrees.The header of each file claims there are two channels, although the provided documentation states that there is only one channel per file.The units are: flux [tenths of Joule/cm^2]
Links:- Metadata link
- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Metadata link
- Metadata link
- undefined
- undefined
- undefined
- undefined
- undefined
- Data link
- Metadata link
Polygon: 27.01 -29.99 27.01 -14.99 40.01 -14.99 40.01 -29.99 27.01 -29.99LARC_ASDC Short Name: FIRE_AX_CMS_SOLAR_DY Version ID: 1 Unique ID: C1000000981-LARC_ASDC
-
First ISCCP Regional Experiment (FIRE) Atlantic Stratocumulus Transition Experiment (ASTEX) Centre Meteorologie Spatiale (CMS) Hourly Solar Irradiance Data
https://cmr.earthdata.nasa.gov/search/concepts/C1000001001-LARC_ASDC.xmlDescription:The First ISCCP Regional Experiments have been designed to improve data products and cloud/radiation parameterizations used in general circulation models (GCMs). Specifically, the goals of FIRE are (1) to improve basic understanding of the interaction of physical processes in determining life cycles of cirrus and marine stratocumulus systems and the radiative properties of these clouds during their life cycles and (2) to investigate the interrelationships between the ISCCP data, GCM parameterizations, and higher space and time resolution cloud data.To-date, four intensive field-observation periods were planned and executed: a cirrus IFO (October 13 - November 2, 1986); a marine stratocumulus IFO off the southwestern coast of California (June 29 - July 20, 1987); a second cirrus IFO in southeastern Kansas (November 13 - December 7, 1991); and a second marine stratocumulus IFO in the eastern North Atlantic Ocean (June 1 - June 28, 1992). Each mission combined coordinated satellite, airborne, and surface observations with modeling studies to investigate the cloud properties and physical processes of the cloud systems.These files are calculations of the hourly solar irradiance at the surface, based on observations by the METEOSAT. The file naming convention is: esDDMMYYsxx.fiswhere DDMMYY is the date and xx = slot numberMean time (UT) is obtained from the slot number overthe ASTEX region by the formula: UT = (xx/2) - 0.17These files are: I2 pixels, 376 pixels/row, 326 rows. Each pixel has a spatial resolution of 0.04 degrees.The header of each file claims there are two channels, although the provided documentation states that there is only one channel per file.The units are: flux [tenths of Joule/cm^2]
Links:- Metadata link
- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Metadata link
- Metadata link
- undefined
- Metadata link
- undefined
- undefined
- undefined
- undefined
- Data link
- Metadata link
Polygon: 26 -30 26 -14.9 40.01 -14.9 40.01 -30 26 -30LARC_ASDC Short Name: FIRE_AX_CMS_SOLAR_HR Version ID: 1 Unique ID: C1000001001-LARC_ASDC
-
First ISCCP Regional Experiment (FIRE) Atlantic Stratocumulus Transition Experiment (ASTEX) Centre Meteorologie Spatiale (CMS) Longwave Flux Data
https://cmr.earthdata.nasa.gov/search/concepts/C1000001000-LARC_ASDC.xmlDescription:The First ISCCP Regional Experiments have been designed to improve data products and cloud/radiation parameterizations used in general circulation models (GCMs). Specifically, the goals of FIRE are (1) to improve basic understanding of the interaction of physical processes in determining life cycles of cirrus and marine stratocumulus systems and the radiative properties of these clouds during their life cycles and (2) to investigate the interrelationships between the ISCCP data, GCM parameterizations, and higher space and time resolution cloud data.To-date, four intensive field-observation periods were planned and executed: a cirrus IFO (October 13 - November 2, 1986); a marine stratocumulus IFO off the southwestern coast of California (June 29 - July 20, 1987); a second cirrus IFO in southeastern Kansas (November 13 - December 7, 1991); and a second marine stratocumulus IFO in the eastern North Atlantic Ocean (June 1 - June 28, 1992). Each mission combined coordinated satellite, airborne, and surface observations with modeling studies to investigate the cloud properties and physical processes of the cloud systems.These files are the calculated downward longwave flux at the surface derived from METEOSAT observations. The file naming convention is: raDDMMYYsxx.fis_tmpwhere DDMMYY is the date and xx = slot numberMean time (UT) is obtained from the slot number overthe ASTEX region by the formula: UT = (xx/2) - 0.17These files are: I2 pixels, 188 pixels/row, 163 rows. Each pixel has a spatial resolution of 0.08 degrees.The units of flux are Wm^-2.
Links:- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- undefined
- undefined
- undefined
- undefined
- Data link
- Metadata link
Polygon: 27.03 -29.97 27.03 -15.01 39.99 -15.01 39.99 -29.97 27.03 -29.97LARC_ASDC Short Name: FIRE_AX_CMS_LWFLUX Version ID: 1 Unique ID: C1000001000-LARC_ASDC
-
First ISCCP Regional Experiment (FIRE) Atlantic Stratocumulus Transition Experiment (ASTEX) Centre Meteorologie Spatiale (CMS) Monthly Solar Irradiance Data
https://cmr.earthdata.nasa.gov/search/concepts/C1000001002-LARC_ASDC.xmlDescription:The First ISCCP Regional Experiments have been designed to improve data products and cloud/radiation parameterizations used in general circulation models (GCMs). Specifically, the goals of FIRE are (1) to improve basic understanding of the interaction of physical processes in determining life cycles of cirrus and marine stratocumulus systems and the radiative properties of these clouds during their life cycles and (2) to investigate the interrelationships between the ISCCP data, GCM parameterizations, and higher space and time resolution cloud data.To-date, four intensive field-observation periods were planned and executed: a cirrus IFO (October 13 - November 2, 1986); a marine stratocumulus IFO off the southwestern coast of California (June 29 - July 20, 1987); a second cirrus IFO in southeastern Kansas (November 13 - December 7, 1991); and a second marine stratocumulus IFO in the eastern North Atlantic Ocean (June 1 - June 28, 1992). Each mission combined coordinated satellite, airborne, and surface observations with modeling studies to investigate the cloud properties and physical processes of the cloud systems.These files are calculations of the monthly solar irradiance at the surface, based on observations by the METEOSAT. The file naming convention is: esmxx.fis where xx is the month number of 1992.These files are: I2 pixels, 376 pixels/row, 326 rows. Each pixel has a spatial resolution of 0.04 degrees.The header of each file claims there are two channels, although the provided documentation states that there is only one channel per file.The units are: flux [tenths of Joule/cm^2]
Links:- Metadata link
- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Metadata link
- Metadata link
- undefined
- Metadata link
- undefined
- undefined
- undefined
- undefined
- Data link
- Metadata link
Polygon: 26.99 -29.99 26.99 -14.97 40.01 -14.97 40.01 -29.99 26.99 -29.99LARC_ASDC Short Name: FIRE_AX_CMS_SOLAR_MN Version ID: 1 Unique ID: C1000001002-LARC_ASDC
-
First ISCCP Regional Experiment (FIRE) Atlantic Stratocumulus Transition Experiment (ASTEX) Centre Meteorologie Spatiale (CMS) Weekly Solar Irradiance Data
https://cmr.earthdata.nasa.gov/search/concepts/C1000001003-LARC_ASDC.xmlDescription:The First ISCCP Regional Experiments have been designed to improve data products and cloud/radiation parameterizations used in general circulation models (GCMs). Specifically, the goals of FIRE are (1) to improve basic understanding of the interaction of physical processes in determining life cycles of cirrus and marine stratocumulus systems and the radiative properties of these clouds during their life cycles and (2) to investigate the interrelationships between the ISCCP data, GCM parameterizations, and higher space and time resolution cloud data.To-date, four intensive field-observation periods were planned and executed: a cirrus IFO (October 13 - November 2, 1986); a marine stratocumulus IFO off the southwestern coast of California (June 29 - July 20, 1987); a second cirrus IFO in southeastern Kansas (November 13 - December 7, 1991); and a second marine stratocumulus IFO in the eastern North Atlantic Ocean (June 1 - June 28, 1992). Each mission combined coordinated satellite, airborne, and surface observations with modeling studies to investigate the cloud properties and physical processes of the cloud systems.These files are calculations of the monthly solar irradiance at the surface, based on observations by the METEOSAT. The file naming convention is: esmxx.fis where xx is the month number of 1992.These files are: I2 pixels, 376 pixels/row, 326 rows. Each pixel has a spatial resolution of 0.04 degrees.The header of each file claims there are two channels, although the provided documentation states that there is only one channel per file.The units are: flux [tenths of Joule/cm^2]
Links:- Metadata link
- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Metadata link
- Metadata link
- undefined
- Metadata link
- undefined
- undefined
- undefined
- undefined
- Data link
- Metadata link
Polygon: 26.01 -29.99 26.01 -14 40.01 -14 40.01 -29.99 26.01 -29.99LARC_ASDC Short Name: FIRE_AX_CMS_SOLAR_WK Version ID: 1 Unique ID: C1000001003-LARC_ASDC
-
Global Data Base of Monthly Mean Cloud and Surface Properties
https://cmr.earthdata.nasa.gov/search/concepts/C1214584387-SCIOPS.xmlDescription:Global monthly means were obtained from ISCCP C1 data, which is available every 3 hours at 2.5 degree equal area spatial resolution. The monthly mean maps were replicated to a 2.5 degree square grid (144 longitude boxes by 72 latitude boxes). Monthly means are provided for Cloud Amount (CLDAMT), Cloud Top Temperature (CLDTMP), Cloud Top Pressure (CLDPRS), Cloud Optical Thickness (OPTTHK), Surface Temperature (SRFTMP), and Surface Reflectance (SRFRFL).
Links: Temporal Extent: Spatial Extent:Minimum Bounding Rectangle: -90 -180 90 180SCIOPS Short Name: ISCCPC1 Version ID: 1 Unique ID: C1214584387-SCIOPS
This collection does not contain any granules -
Global radiation at the Earth-surface derived from METEOSAT-data (DWD-Archive) from 1994 on.
https://cmr.earthdata.nasa.gov/search/concepts/C1214585737-SCIOPS.xmlDescription:Since 1985, the German Meteorological Service DWD (Deutscher Wetterdienst) has been extracting the global radiation from METEOSAT visible data based on a method which was developed by Moeser and Raschke (1984). The method combines results from radiative transfer calculations with cloud information from METEOSAT-VIS data. The area of investigation is Central Europe. The global radiation is one component of the radiation balance at the surface. The radiation balance is an important climate parameter, because it describes part of the ernergy fluxes between the surface and the atmosphere. Information on the global radiation is also needed for agricultural applications and for solar energy research. Product pricing depends on scientific or commercial use. General information about the DWD is provided on Web .
Links: Temporal Extent: Spatial Extent:Minimum Bounding Rectangle: 46 2 55 16SCIOPS Short Name: DWD-METEOSAT_Glob.rad. Version ID: Not provided Unique ID: C1214585737-SCIOPS
This collection does not contain any granules -
International Satellite Cloud Climatology Project (ISCCP) Stage B3 Reduced Radiances in Native Format
https://cmr.earthdata.nasa.gov/search/concepts/C7994310-LARC_ASDC.xmlDescription:The ISCCP_B3_NAT data is the International Satellite Cloud Climatology Project (ISCCP) Stage B3 Reduced Radiances in Native Format data product. This is the original radiance data, sampled to 30 Km and 3-hour spacing. Data collection for this product is complete and was collected using several instruments on multiple platforms, please see the instrument and platform list of this record for a comprehensive list. The normalization of all radiances to a standard calibration made these data a globally uniform set of measurements that can be used for detailed cloud process studies. ISCCP was the first project of the World Climate Research Program (WCRP) and was established in 1982 (WMO-35 1982, Schiffer and Rossow 1983) to: produce a global, reduced resolution, calibrated and normalized radiance data set containing basic information on the properties of the atmosphere from which cloud parameters can be derived; stimulate and coordinate basic research on techniques for inferring the physical properties of clouds from the condensed radiance data set and to apply the resulting algorithms to derive and validate a global cloud climatology for improving the parameterization of clouds in climate models; and promote research using ISCCP data that contributes to improved understanding of the Earth's radiation budget and hydrological cycle. Since 1983 an international group of institutions has collected and analyzed satellite radiance measurements from up to five geostationary and two polar orbiting satellites to infer the global distribution of cloud properties and their diurnal, seasonal and inter-annual variations. The primary focus of the first phase of the project (1983-1995) was the elucidation of the role of clouds in the radiation budget (top of the atmosphere and surface). In the second phase of the project (1995 onwards) the analysis also concerns improving understanding of clouds in the global hydrological cycle. ISCCP analysis combined satellite-measured radiances (Stage B3 data, Schiffer and Rossow 1985), Rossow et al. 1987) with the TOVS atmospheric temperature-humidity and ice/snow correlative data sets to obtain information about clouds and the surface. The analysis method first determined the presence of absence of clouds in each individual image pixel and retrieves the radiometric properties of the cloud for each cloudy pixel and of the surface for each clear pixel. The pixel analysis is performed separately for each satellite radiance data set and the results reported in the Stage DX data product, which has a nominal resolution of 30 km and 3 hours. The Stage D1 product is produced by summarizing the pixel-level results every 3 hours on an equal-area map with 280 km resolution and merging the results from separate satellites with the atmospheric and ice/snow data sets to produce global coverage at each time. The Stage D2 data product is produced by averaging the Stage D1 data over each month, first at each of the eight three hour time intervals and then over all time intervals.
Links:- undefined
- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Data link
Polygon: -90 -180 -90 180 90 180 90 -180 -90 -180LARC_ASDC Short Name: ISCCP_B3_NAT Version ID: 1 Unique ID: C7994310-LARC_ASDC
-
International Satellite Cloud Climatology Project (ISCCP) Stage D1 3-Hourly Cloud Products - Revised Algorithm in Hierarchical Data Format
https://cmr.earthdata.nasa.gov/search/concepts/C2146773048-LARC_ASDC.xmlDescription:ISCCP_D1_1 is the International Satellite Cloud Climatology Project (ISCCP) Stage D1 3-Hourly Cloud Products - Revised Algorithm data set in Hierarchical Data Format. This data set contains 3-hourly, 280 KM equal-area grid data from various polar and geostationary satellites. The Gridded Cloud Product contents are spatial averages of DX quantities and statistical summaries, including properties of cloud types. Satellites are merged into a global grid. Atmosphere and surface properties from TOVS are appended. Data collection for this data set is complete. ISCCP, the first project of the World Climate Research Program (WCRP), was established in 1982 (WMO-35 1982, Schiffer and Rossow 1983) to: produce a global, reduced resolution, calibrated and normalized radiance data set containing basic information on the properties of the atmosphere from which cloud parameters can be derived; stimulate and coordinate basic research on techniques for inferring the physical properties of clouds from the condensed radiance data set and to apply the resulting algorithms to derive and validate a global cloud climatology for improving the parameterization of clouds in climate models; and promote research using ISCCP data that contributes to improved understanding of the Earth's radiation budget and hydrological cycle. Starting in 1983 an international group of institutions collected and analyzed satellite radiance measurements from up to five geostationary and two polar orbiting satellites to infer the global distribution of cloud properties and their diurnal, seasonal and interannual variations. The primary focus of the first phase of the project (1983-1995) was the elucidation of the role of clouds in the radiation budget (top of the atmosphere and surface). In the second phase of the project (1995 onward) the analysis also concerns improving understanding of clouds in the global hydrological cycle. The ISCCP analysis combined satellite-measured radiances (Stage B3 data, Schiffer and Rossow 1985), Rossow et al. 1987) with the TOVS atmospheric temperature-humidity and ice/snow correlative data sets to obtain information about clouds and the surface. The analysis method first determined the presence of absence of clouds in each individual image pixel and retrieves the radiometric properties of the cloud for each cloudy pixel and of the surface for each clear pixel. The pixel analysis was performed separately for each satellite radiance data set and the results were reported in the Stage DX data product, which had a nominal resolution of 30 km and 3 hours. The Stage D1 product was produced by summarizing the pixel-level results every 3 hours on an equal-area map with 280 km resolution and merging the results from separate satellites with the atmospheric and ice/snow data sets to produce global coverage at each time. The Stage D2 data product was produced by averaging the Stage D1 data over each month, first at each of the eight three hour time intervals and then over all time intervals.
Links:- Metadata link
- undefined
- Metadata link
- undefined
- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Data link
- Metadata link
Polygon: -90 -180 -90 180 90 180 90 -180 -90 -180LARC_ASDC Short Name: ISCCP_D1 Version ID: 1 Unique ID: C2146773048-LARC_ASDC
-
International Satellite Cloud Climatology Project (ISCCP) Stage D2 Monthly Cloud Products - Revised Algorithm in Hierarchical Data Format
https://cmr.earthdata.nasa.gov/search/concepts/C2146747804-LARC_ASDC.xmlDescription:The ISCCP_D2 data set contains monthly, 280 KM equal-area grid data from various polar and geostationary satellites. Climatological Summary Product contents contain monthly average of D1 quantities including mean diurnal cycle, distribution and properties of total cloudiness and cloud types. The International Satellite Cloud Climatology Project (ISCCP), the first project of the World Climate Research Program (WCRP), was established in 1982 (WMO-35 1982, Schiffer and Rossow 1983): - To produce a global, reduced resolution, calibrated and normalized radiance data set containing basic information on the properties of the atmosphere from which cloud parameters can be derived. - To stimulate and coordinate basic research on techniques for inferring the physical properties of clouds from the condensed radiance data set and to apply the resulting algorithms to derive and validate a global cloud climatology for improving the parameterization of clouds in climate models. - To promote research using ISCCP data that contributes to improved understanding of the Earth's radiation budget and hydrological cycle. Since 1983 an international group of institutions has collected and analyzed satellite radiance measurements from up to five geostationary and two polar orbiting satellites to infer the global distribution of cloud properties and their diurnal, seasonal and interannual variations. The primary focus of the first phase of the project (1983-1995) was the elucidation of the role of clouds in the radiation budget (top of the atmosphere and surface). In the second phase of the project (1995 onwards) the analysis also concerns improving understanding of clouds in the global hydrological cycle. The ISCCP analysis combines satellite-measured radiances (Stage B3 data, Schiffer and Rossow 1985), Rossow et al. 1987) with the TOVS atmospheric temperature-humidity and ice/snow correlative data sets to obtain information about clouds and the surface. The analysis method first determines the presence of absence of clouds in each individual image pixel and retrieves the radiometric properties of the cloud for each cloudy pixel and of the surface for each clear pixel. The pixel analysis is performed separately for each satellite radiance data set and the results reported in the Stage DX data product, which has a nominal resolution of 30 km and 3 hours. The Stage D1 product is produced by summarizing the pixel-level results every 3 hours on an equal-area map with 280 km resolution and merging the results from separate satellites with the atmospheric and ice/snow data sets to produce global coverage at each time. The Stage D2 data product is produced by averaging the Stage D1 data over each month, first at each of the eight three hour time intervals and then over all time intervals.
Links:- Metadata link
- undefined
- Metadata link
- undefined
- Data link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- Metadata link
- undefined
- Data link
- Metadata link
Polygon: -90 -180 -90 180 90 180 90 -180 -90 -180LARC_ASDC Short Name: ISCCP_D2 Version ID: 1 Unique ID: C2146747804-LARC_ASDC