An integration system for the collocation of polar and geostationary satellite observations

机译：极地和对地静止卫星观测并置的集成系统

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Satellite observation collocation algorithms are generally used to spatially match observations or products from different satellite systems. The spatially matched and integrated satellite datasets are commonly used in integrated retrievals, satellite instrument inter-calibration and satellite observation validation. Instrument physical based collocation algorithms are developed at NOAA/NESDIS/STAR to support the development of the satellite observation integration system. The algorithms are applied within the Geostationary satellite & Polar satellite (GEO-LEO) integration system for IASI/SEVRI and will applied in the future CrIS/GOES-R observation integration system. In this paper, the details of the algorithms for IASI/SEVERI and AIRS/SEVIRI collocation are described and some results for both are presented.

机译：卫星观测搭配算法通常用于空间匹配来自不同卫星系统的观测或产品。空间匹配和集成的卫星数据集通常用于集成检索，卫星仪器相互校准和卫星观测验证。 NOAA / NESDIS / STAR开发了基于仪器物理的搭配算法，以支持卫星观测集成系统的开发。该算法在IASI / SEVRI的对地静止卫星和极地卫星（GEO-LEO）集成系统中应用，并将在未来的CrIS / GOES-R观测集成系统中应用。在本文中，详细描述了IASI / SEVERI和AIRS / SEVIRI配置的算法，并给出了两者的一些结果。

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来源
《Remote sensing for agriculture, ecosystems, and hydrology XIII》|2011年|p.81741Y.1-81741Y.9|共9页
会议地点 Prague(CZ)
作者
Haibing Sun; Walter Wolf; Thomas King; Chris Earner; Mitch Goldberg;
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作者单位

DELL- Perot System;

NOAA/NESDIS/STAR;

DELL- Perot System;

NOAA/NESDIS/STAR;

NOAA/NESDIS/STAR;

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会议组织
原文格式 PDF
正文语种 eng
中图分类环境遥感;
关键词
list: satellite; observation; collocation; algorithms; polar; geostationary; integration;

机译：清单：卫星；观察搭配;算法;极性;对地静止积分;
入库时间 2022-08-26 13:45:15

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An integration system for the collocation of polar and geostationary satellite observations

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