Ocean Color Atmospheric Correction Method with Multi-Angles Data in Case II Waters

Zhiwu Ke, Yong Ma, Hongyuan Wang, Hao Wang
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Abstract

The atmospheric correction for the ocean color remote sensing is the most important technique to retrieve the waterleaving radiance, which is less than about 10% of the satellite radiance. In Case II waters, the standard atmospheric correction method embedded in SeaDAS frequently yields negative waterleaving radiance, and its major uncertainties are occurred by the estimation error of atmospheric aerosols that is highly variable in both space and time. In this paper, a modified atmospheric correction method was proposed to correct the atmospheric aerosol effect in Case II waters. The aerosol information derived from multi-angles data in Case II waters and then modify the standard atmospheric correction algorithm to retrieve the waterleaving radiance. From the comparison of the standard atmospheric correction algorithm and the modified atmospheric correction algorithm, the results showed that the modified atmospheric correction method could be effective in Case II waters. KeywordsOcean color Remote; Atmospheric correction; Case II waters; Aerosol; Multi-angles
案例II水域多角度海洋色彩大气校正方法
海洋颜色遥感的大气校正是获取离水辐射最重要的技术,离水辐射不到卫星辐射的10%左右。在情形II水域,SeaDAS中嵌入的标准大气校正方法经常产生负的离水辐射,其主要不确定性来自于大气气溶胶的估计误差,该误差在空间和时间上都是高度可变的。本文提出了一种修正的大气校正方法,用于修正Case II水域的大气气溶胶效应。利用Case II水域多角度数据得到的气溶胶信息,对标准大气校正算法进行修正,反演出离水辐射。通过对标准大气校正算法和改进后的大气校正算法的比较,结果表明改进后的大气校正方法在Case II水域是有效的。关键词海洋色彩;远程;大气校正;情形二水;气溶胶;宜居
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