摘要
水体光场的非朗伯特性(二向性)是目前水色反演算法中的误差因素之一.随着新一代高精度水色遥感器的发射,原来的许多次要因素已变得不可忽略.为研究水体光场的非朗伯特性,首先建立了一个三维MonteCarlo海洋光学模型,并利用国际上提出的7个海洋光学标准问题中的4个对模型的正确性进行了检验;在此基础上,模拟了不同太阳天顶角、体成分等参数对离水辐射率的方向特性的影响.模拟结果表明,在一定的遥感器-太阳-像元几何条件下,同一水体的光场二向性带来的离水辐射率变化可能大于已有的业务化水色大气修正算法反演高水辐射率的误差.模拟结果对水色遥感中正确进行现场数据获取及遥感与地面数据比对有一定的意义.
The bidirectionality of water light field is one of the error sources of the ocean color models which now commonly are used to retrieve pigments' concentrations. As the launching of new generation ocean color sensors, e. g. SeaWiFS, or the coming MODIS, the goal of accuracy of ocean color sensing is now much higher than that of CZCS. The original minor factors, such as the bidirectionality of water-leaving radiance, become more important for retrieving algorithms. The results are based on the three-dimensional Monte Carlo simulations, and some aspects that should be considered for in situ optical data collection and related remote sensor's calibration and validation activities, are proposed.
出处
《海洋学报》
CAS
CSCD
北大核心
2000年第2期48-57,共10页
基金
国家自然科学基金!49871058
海洋"863"818-06-03支持项目
总装备部某遥感应用研究支持项目
海洋局青年基
关键词
水体光场分布
离水辐射二向性
MONTE
Carlo
水色
Water light field distribution, bidirectionality of water-leaving radiance, three-dimensional Monte Carlo
