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Hyperspectral remote sensing for shallow waters: 2 Deriving bottom depths and water properties by optimization

高光谱成像 测距 遥感 水深测量 反演(地质) 波浪和浅水 衰减系数 辐射传输 吸收(声学) 有色溶解有机物 地质学 光学 环境科学 大地测量学 物理 有机化学 营养物 海洋学 浮游植物 化学 古生物学 构造盆地
作者
Zhongping Lee,Kendall L. Carder,Curtis D. Mobley,Robert G. Steward,Jennifer S. Patch
出处
期刊:Applied optics-OT [Optica Publishing Group]
卷期号:38 (18): 3831-3831 被引量:902
标识
DOI:10.1364/ao.38.003831
摘要

In earlier studies of passive remote sensing of shallow-water bathymetry, bottom depths were usually derived by empirical regression. This approach provides rapid data processing, but it requires knowledge of a few true depths for the regression parameters to be determined, and it cannot reveal in-water constituents. In this study a newly developed hyperspectral, remote-sensing reflectance model for shallow water is applied to data from computer simulations and field measurements. In the process, a remote-sensing reflectance spectrum is modeled by a set of values of absorption, backscattering, bottom albedo, and bottom depth; then it is compared with the spectrum from measurements. The difference between the two spectral curves is minimized by adjusting the model values in a predictor-corrector scheme. No information in addition to the measured reflectance is required. When the difference reaches a minimum, or the set of variables is optimized, absorption coefficients and bottom depths along with other properties are derived simultaneously. For computer-simulated data at a wind speed of 5 m/s the retrieval error was 5.3% for depths ranging from 2.0 to 20.0 m and 7.0% for total absorption coefficients at 440 nm ranging from 0.04 to 0.24 m(-1). At a wind speed of 10 m/s the errors were 5.1% for depth and 6.3% for total absorption at 440 nm. For field data with depths ranging from 0.8 to 25.0 m the difference was 10.9% (R2 = 0.96, N = 37) between inversion-derived and field-measured depth values and just 8.1% (N = 33) for depths greater than 2.0 m. These results suggest that the model and the method used in this study, which do not require in situ calibration measurements, perform very well in retrieving in-water optical properties and bottom depths from above-surface hyperspectral measurements.
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