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水体表面温度反演研究综述

DOI: 10.3724/SP.J.1047.2015.00969, PP. 969-978

Keywords: 遥感定量反演,红外,不确定性分析,微波,水体表面温度

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Abstract:

水体表面温度是研究全球或区域气候变化、数值天气预报的重要参数,是控制水体与大气热量、水分交换的重要变量,对理解水体生物物理过程具有重要意义。卫星观测水表温度具有传统手段不可比拟的技术优势,同时也存在精度和质量上的限制和挑战。本文总结了观测水表温度常用的红外、微波传感器及其分辨率特征,并比较分析了各类传感器的优势、劣势和分辨率适用的时空尺度;在区别不同手段观测的水表温度基础上,分别概述了红外遥感和微波遥感反演水表温度的理论基础,以及常用的算法模型;基于水表温度反演的原理和过程,系统分析了云、水汽、气溶胶、比辐射率等不确定性因素,对反演精度的影响及解决方法,并对精度验证方法做了简单介绍;最后,对水体表面温度反演的发展趋势进行了展望,并指出多源数据的同化融合、优势互补是提升水温反演精度的重要途径。

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