ADEOS-II/GLI L3 Binned Normalized water-leaving radiance (8days,9 km)
- DOI: 10.57746/EO.01gs73atvertf9sr4nvm3kxbdj
- Last Updated: 2023-02-14
Product Summary
ADEOS-II/GLI L3 Binned Normalized water-leaving radiance (8days,9km) is obtained from the GLI (Global-Imager) sensor onboard ADEOS-II and produced by the Japan Aerospace Exploration Agency (JAXA). Global environment change has become a worldwide concern in recent years. In order to clarify these environmental changes, the Advanced Earth Observing Satellite (ADEOS-II, renamed "Midori II" after launch) has been developed for the purpose of monitoring the Earth environment using remote sensing technology from space. Midori II carries mission instruments that are particularly dedicated to clarify the water energy cycle and the carbon cycle, and is expected to be utilized for international climate change research programs.
GLI an optical sensor that observes the reflected solar radiation from the Earth's surface, including land, oceans and clouds and/or infrared radiation with a multi-channel system for measuring the biological content. The SGLI has a swath of 1600 km.
This product includes Normalized water-leaving radiance at 380, 400, 412, 443, 460, 490, 520, 545, 565, 625, 666, 680, 710 nm. They are derived from an extension of the OCTS atmospheric correction algorithm. It treated multiple scattering among the aerosol particles and gas molecules, as well as the effects of variable ozone concentration, surface pressure, surface wind speed, and water vapor amount. The atmospheric correction with iterative procedure was developed to avoid the black pixel assumption, and to consider absorptive aerosol. This product includes sum, square sum, max, min of each pixel is included.
The provided format is HDF. The physical unit is mW cm^-2 um^-1 sr^-1. The spatial resolution is 9 km and the statistical period is 8 days, also 1 day and 1 month statistics is available. Map projection is EQA. The generation unit is global. The current version of the product is "Version 2".
- Platform
- ADEOS-II
- Sensor
- GLI
Coverage
Temporal Coverage
2003-01-24 to 2003-10-25
Spatial Coverage
Bounding Rectangle
(90.0°,
-180.0°,
-90.0°,
180.0°)
Resolution
9 km
Location
- GEOGRAPHIC REGION > GLOBAL OCEAN
- Dataset Short Name
- ADEOS-II_GLI_L3B_NW_8days_9km
- Platform / Sensor
- ADEOS-II / GLI
- Coverage
-
- Spatial Coverage
-
Bounding Rectangle
(90.0°, -180.0°, -90.0°, 180.0°) - Temporal Coverage
- 2003-01-24 to 2003-10-25
- Product Level ID
- L3
- Version Description
Version 1, 2003-12-24, Notavailable
Version 2, 2004-11-01, Available- File Format
- HDF4
- Dataset Type
- 8days / Global
- Resolution
-
- Spatial Resolution
- 9 km
- Temporal Resolution
- 8days
- Dataset Progress
- Complete
- Projection
- EQA
- Collection Data Type
- SCIENCE_QUALITY
- Get Data
- https://gportal.jaxa.jp/gpr/?lang=en
- Dataset Title
- ADEOS-II/GLI L3 Binned Normalized water-leaving radiance (8days,9 km)
- Distribution Format
- HDF4
- Fees
- Free
- Citation
- Japan Aerospace Exploration Agency. 2003. ADEOS-II/GLI L3 Binned Normalized water-leaving radiance (8days,9 km). https://doi.org/10.57746/EO.01gs73atvertf9sr4nvm3kxbdj
- Access Constraints
No constraints but users need to be registered with the G-portal User Registration system to download files.
- Use Constraints
The user is entitled to use G-Portal data free of charge without any restrictions (including commercial use) except for the condition about acknowledgement of data credit as stipulated in G-portal terms of use 7.(2).Click here for detailed G-Portal data usage constrains.
- G-Portal Terms of service
- https://gportal.jaxa.jp/gpr/index/eula?lang=en
- ISO Topic Categories
-
- OCEANS
- CLIMATOLOGY/METEOROLOGY/ATMOSPHERE
- Science Keywords
-
- EARTH SCIENCE > OCEANS > OCEAN OPTICS > WATER-LEAVING RADIANCE
- Location Keywords
-
- GEOGRAPHIC REGION > GLOBAL OCEAN
ISO Topic Categories is the keywords in the ISO 19115 - Geographic Information Metadata.
Science Keywords hosts Global Change Master Directory (GCMD) Keywords which are a hierarchical set of controlled Earth Science vocabularies that help ensure Earth science data, services, and variables are described in a consistent and comprehensive manner and allow for the precise searching of metadata and subsequent retrieval of data, services, and variables.