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Proceedings Paper

A carbon dioxide radiance model of the earth planet using the conical earth sensor data
Author(s): Loulou Deng; Zhiwu Mei; Zhijun Tu; Jun Yuan; Ting He; Yi Wei
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Paper Abstract

Climate Modeling results show that about 50% of the Earth’s outgoing radiation and 75% of the atmospheric outgoing radiation are contained in the far infrared. Generally the earth is considered as a 220~230 K blackbody, and the peak breadth of the Earth’s outgoing radiation is around the wavelength of 10 micron. The atmospheric outgoing radiation are contained with five spectral intervals: the water vapor band from 6.33 to 6.85 microns, the ozone band from 8.9 to 10.1microns, the atmospheric window from 10.75 to 11.75 microns, the carbon dioxide band from 14 to 16 microns, and finally the rotational water vapor band from 21 to 125 microns. The properties of the carbon dioxide band is stable than other bands which has been chosen for the work Spectrum of the earth sensors. But the radiation energy of carbon dioxide band is variety and it is a function of latitude, season and weather conditions. Usually the luminance of the Earth’s radiation (14 to 16 μm) is from 3 to 7 W/m2Sr. Earth sensor is an important instrument of the Attitude and Orbit Control System (AOCS), and it is sensitive to the curve of the earth’s and atmospheric outgoing radiation profile to determine the roll and pitch angles of satellite which are relative to nadir vector. Most earth sensors use profile data gathered form Project Scanner taken in August and December 1966. The earth sensor referred in this paper is the conical scanning earth sensor which is mainly used in the LEO (Low Earth Orbit) satellite. A method to determine the luminance of earth’s and atmospheric outgoing radiation (carbon dioxide) using the earth sensor is discussed in this paper. When the conical scanning sensor scan form the space to the earth, a pulse is produced and the pulse breadth is scale with the infrared radiation luminance. Then the infrared radiation luminance can be calculated. A carbon dioxide radiance model of the earth’s and atmospheric outgoing radiation is obtained according the luminance data about with different latitudes and seasons which are measured form the conical scanning earth sensors of ZY-1 satellite. When the carbon dioxide radiance model has been collected, it can be fed directly to the earth sensors to improve their accuracy. It also can be supplied for the research of the content and distribution of carbon dioxide in the atmosphere.

Paper Details

Date Published: 24 October 2013
PDF: 7 pages
Proc. SPIE 8889, Sensors, Systems, and Next-Generation Satellites XVII, 88891U (24 October 2013); doi: 10.1117/12.2029065
Show Author Affiliations
Loulou Deng, Beijing Institute of Control Engineering (China)
Zhiwu Mei, Beijing Institute of Control Engineering (China)
Zhijun Tu, Beijing Institute of Control Engineering (China)
Jun Yuan, Beijing Institute of Control Engineering (China)
Ting He, Beijing Institute of Control Engineering (China)
Yi Wei, Beijing Institute of Control Engineering (China)


Published in SPIE Proceedings Vol. 8889:
Sensors, Systems, and Next-Generation Satellites XVII
Roland Meynart; Steven P. Neeck; Haruhisa Shimoda, Editor(s)

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