The impact of cosine collector geometry on aquatic spectroradiometer performance

中国会展 Pub Date : 2000-09-11 DOI:10.1109/OCEANS.2000.882233

J. Morrow, D. Goebel, C. Booth, R. Reynolds

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引用次数: 2

Abstract

The design of underwater instruments is often a compromise between instrument optical performance features, ruggedness of design, and communications bandwidth. Further, the increased number of spectral bands reported by newer sensing systems and the wide dynamic range observed in optical signals in situ places special challenges on the design of next generation instrumentation. Error introduced into irradiance measurements by departures from a true cosine response is one important characteristic of spectroradiometer performance. Using laboratory data acquired using a newly developed nineteen wavelength PRR-800/810 Profiling Reflectance Radiometer, this paper illustrates the impact of cosine collector geometry on measurements of spectral irradiance. Typical departures from true cosine response for the PRR-800 are less than /spl plusmn/2% over the visible region of the spectrum over zenith angles /spl plusmn/65/spl deg/, with /spl plusmn/10% out to +/- 88/spl deg/. Using a uniformly diffuse light field, estimates of the inaccuracy from geometric errors integrated over all zenith and azimuthal angles are less than 2.5% total error throughout the visible region.

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余弦收集器几何形状对水光谱辐射计性能的影响

水下仪器的设计通常是在仪器的光学性能、设计的坚固性和通信带宽之间做出妥协。此外，新的传感系统所报告的光谱带数量的增加以及在原位光信号中观察到的宽动态范围对下一代仪器的设计提出了特殊的挑战。由于偏离真实余弦响应而引入辐照度测量的误差是光谱辐射计性能的一个重要特征。本文利用新研制的19波长PRR-800/810型反射辐射计所获得的实验室数据，说明了余弦收集器几何形状对光谱辐照度测量的影响。PRR-800与真实余弦响应的典型偏差小于/spl plusmn/2%，在天顶角/spl plusmn/65/spl°/，/spl plusmn/10%达到+/- 88/spl°/。使用均匀漫射光场，从所有天顶角和方位角的几何误差中估计的不准确性小于整个可见区域的总误差的2.5%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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中国会展

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8254