DSCOVR Level 2
Entry Title: EPIC-view satellite composites for DSCOVR, Version 1
Entry ID: DSCOVR_EPIC_L2_COMPOSITE_01
Clouds Radiation Budget
Description
In DSCOVR_EPIC_L2_composite_01, cloud property retrievals from multiple imagers on low Earth orbit (LEO) satellites (including MODIS, VIIRS, and AVHRR) and geostationary (GEO) satellites (including GOES-13 and -15, METEOSAT-7 and -10, MTSAT-2, and Himawari-8) are used to generate the composite. Based on the Ceres cloud detection and retrieval system, all cloud properties were determined using a standard set of algorithms, the Satellite ClOud and Radiation Property Retrieval System (SatCORPS). Cloud properties from these LEO/GEO imagers are optimally merged together to provide a seamless global composite product at 5-km resolution by using an aggregated rating that considers five parameters (nominal satellite resolution, pixel time relative to the Earth Polychromatic Imaging Camera (EPIC) observation time, viewing zenith angle, distance from day/night terminator, and sun glint factor) and selects the best observation at the time nearest to the EPIC measurements. About 72% of the LEO/GEO satellite overpass times are within one hour of the EPIC measurements, while 92% are within two hours of the EPIC measurements. The global composite data are then remapped into the EPIC Field of View (FOV) by convolving the high-resolution cloud properties with the EPIC point spread function (PSF) defined with a half-pixel accuracy to produce the EPIC composite. PSF-weighted radiances and cloud properties averages are computed separately for each cloud phase. Ancillary data (i.e., surface type, snow and ice map, skin temperature, precipitable water, etc.) needed for anisotropic factor selections are also included in the composite. These composite images are produced for each observation time of the EPIC instrument (typically 300 to 600 composites per month).
Publications which Cite this Collection
Gu, Lixiang; Zeng, Zhao-Cheng; Fan, Siteng; Natraj, Vijay; Jiang, Jonathan H.; Crisp, David; Yung, Yuk L.; Hu, Yongyun (2020). Earth as a Proxy Exoplanet: Simulating DSCOVR/EPIC Observations Using the Earth Spectrum Simulator.
Gu, Lixiang; Fan, Siteng; Li, Jiazheng; Bartlett, Stuart J.; Natraj, Vijay; Jiang, Jonathan H.; Crisp, David; Hu, Yongyun; Tinetti, Giovanna; Yung, Yuk L. (2018). Earth as a Proxy Exoplanet: Deconstructing and Reconstructing Spectrophotometric Light Curves.
Resources and Documentation
GOTO WEB TOOL
DSCOVR EPIC Visualization Tool
PROJECT HOME PAGE
VIEW RELATED INFORMATION
- Description of the DSCOVR/EPIC volcanic SO2 Level 2 Algorithm
ALGORITHM DOCUMENTATION
- DSCOVR Earth Science Instrument Overview
- EPIC level 1 A & B Calibration factors table
INSTRUMENT/SENSOR CALIBRATION DOCUMENTATION
- NASA Captures "EPIC" Earth Image Article from July 20, 2015
- NASA Earth Observatory Article: 2016 Tournament Earth Champion: The Dark Side of the Moon - The images were acquired by the Earth Polychromatic Imaging Camera (EPIC) on the DSCOVR satellite
- NASA Earth Observatory Article: An EPIC Eclipse: Natural Hazards - The Deep Space Climate Observatory (DSCOVR) was built to provide a distinct perspective on our planet.
- NASA Earth Observatory Article: An EPIC New View of Earth: Image of the Day - From one million miles away, the DSCOVR satellite returned its first view of the entire sunlit side of Earth
- NASA Earth Observatory Article: April : 2016 : Earth Matters : Blog - The images were acquired by the Earth Polychromatic Imaging Camera (EPIC) on the DSCOVR satellite
- NASA Earth Observatory Article: The Dark Side and the Bright Side: Image of the Day - A NASA camera aboard the Deep Space Climate Observatory (DSCOVR) has captured a unique view of the Moon as it passed between the spacecraft and Earth
- NASA Earth Observatory Article: Up, Up, and Away for DSCOVR - The journey has been a long one for the Deep Space Climate Observatory (DSCOVR)
- NASA Leadership Blog, DSCOVR’s First Light on the Future by Buzz Aldrin
- NASA Studies High Clouds, Saharan Dust from EPIC View
- The Atlantic Article "Al Gore Dreamed Up a Satellite—and It Just Took Its First Picture of Earth: The U.S. Deep Space Climate Observatory just sent back its first view of our home world, and it’s a beauty." By Robinson Meyer, July 20, 2015
MICRO ARTICLE
- EPIC Data Format Control Book Specification July 1, 2016
PROCESSING HISTORY
- Earth Observation Portal Page for DSCOVR Mission Information
RELATED ARTICLES
Keywords
From GCMD Science Keywords:
- CLOUD TOP HEIGHT > CLOUD PROPERTIES
- CLOUD MICROPHYSICS
- LONGWAVE RADIATION
- CLOUD HEIGHT > CLOUD PROPERTIES
- CLOUD PROPERTIES
- CLOUD DROPLET CONCENTRATION/SIZE > CLOUD MICROPHYSICS
- CLOUDS
- SHORTWAVE RADIATION
- CLOUD OPTICAL DEPTH/THICKNESS > CLOUD MICROPHYSICS
- ATMOSPHERIC RADIATION
- ALBEDO
- Cloud Droplet Concentration
- Cloud Droplet Size
- Cloud Optical Depth
- Cloud Optical Thickness
- Longwave (LW) Radiation
- OLR (Outgoing Longwave Radiation)
- Shortwave (SW) Radiation
Data Distribution
File Format(s):
NetCDF-4
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Spatial Information
Spatial Coverage Type: Not provided
Coordinate System: Cartesian
Granule Spatial Representation: Cartesian
Locations
GLOBAL
Temporal Information
Temporal Coverage: 2015-06-12 - 2017-12-31