An empirical algorithm to estimate spectral average cosine of underwater light field from remote sensing data in coastal oceanic waters

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Abstract

The underwater average cosine is an apparent optical property of water that describes the angular distribution of radiance at a given point in water. Here, we present a simple empirical algorithm to estimate spectral underwater average cosine μ(λ) where the wavelength λ ranges from 400 nm to 700 nm, based only on the apparent optical property, remote sensing reflectance, Rrs(λ), and solar zenith angle. The algorithm has been developed using the measured optical parameters from the coastal waters off Goa, India, and eastern Arabian Sea and the optical parameters derived using the radiative transfer code using these measured data. The algorithm was compared with two earlier reported empirical algorithms of Haltrin (1998, 2000), and the performance of the algorithm was found to be better than these two empirical algorithms. The algorithm is based on single optical parameter; remote sensing reflectance, which can be easily measured in-situ, and is available from the ocean color satellite sensors; hence this algorithm will find applications in the ocean color remote sensing. © 2014,by the American Society of Limnology and Oceanography,Inc.

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Talaulikar, M., Suresh, T., Desa, E., & Inamdar, A. (2014). An empirical algorithm to estimate spectral average cosine of underwater light field from remote sensing data in coastal oceanic waters. Limnology and Oceanography: Methods, 12(FEB), 74–85. https://doi.org/10.4319/lom.2014.12.74

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