Publications

Chen, Jun; Cui, Tingwei; Ishizaka, Joji; Lin, Changsong (2014). A neural network model for remote sensing of diffuse attenuation coefficient in global oceanic and coastal waters: Exemplifying the applicability of the model to the coastal regions in Eastern China Seas. REMOTE SENSING OF ENVIRONMENT, 148, 168-177.

Abstract
global oceanic and coastal waters, a multilayer back propagation neural network (MBPNN) is developed to retrieve the diffuse attenuation coefficient for the downwelling spectral irradiance at the wavelength 490 nm (K-d(490)). The applicability of Lee's quasi-analytical algorithm-based semi-analytical model, Wang's switching model, Chen's semi-analytical model, jamet's neural network model, and the MBPNN model is evaluated using the NASA bio-optical marine algorithm dataset (NOMAD) and the Eastern China Seas dataset. Based on the comparison of Kd(490) predicted by these five models, with field measurements taken in global oceanic and coastal waters, it is found that the MBPNN model provides a stronger performance than the Lee, Wang, Chen, and Jamet's models. The atmospheric effects on the MODIS data are eliminated using near-infrared band-based and shortwave infrared band-based combined models, and the K-d(490) is quantified from the MODIS data after atmospheric correction using the MBPNN model. The study results indicate that the MBPNN model produces similar to 28% uncertainty in estimating K-d(490) from the MODIS data. Finally, an exemplification of the applicability of the model to the coastal regions in the Eastern China Seas is carried out. Our results suggest that the K-d(490) shows a large variation in the Eastern China Seas, ranging from 0.02 to 4.0 m(-1), with an average value of -0.17 m(-1). (C) 2014 Elsevier Inc. All rights reserved.

DOI:
10.1016/j.rse.2014.02.019

ISSN:
0034-4257; 1879-0704