Publications

Liu, HZ; Zhou, QM; Li, QQ; Hu, SB; Shi, TZ; Wu, GF (2019). Determining switching threshold for NIR-SWIR combined atmospheric correction algorithm of ocean color remote sensing. ISPRS JOURNAL OF PHOTOGRAMMETRY AND REMOTE SENSING, 153, 59-73.

Abstract
Accurate atmospheric correction is decisive for ocean color remote sensing applications. Near infrared (NIR)-based algorithm performs well for clear waters; while shortwave infrared (SWIR)-based algorithm can obtain good results for turbid waters, however, it tends to produce noisy patterns for clear waters. A practical strategy is to apply NIR- and SWIR-based algorithm for clear and turbid waters, respectively, which is called NIR-SWIR combined atmospheric correction algorithm. However, the currently applied switching scheme for the NIR-SWIR algorithm undermines the atmospheric correction performance. This study aimed to find an applicable switching scheme for NIR-SWIR algorithm. Four MODIS land bands were used to switch the NIR- and SWIR-based algorithms. A simulated dataset was used to evaluate atmospheric performance of NIR- and SWIR-based algorithm. The switching threshold for each MODIS land band was determined as an R-rs value at which SWIR-based algorithm performed better than NIR-based algorithm. The switching scheme was evaluated using matchups of simultaneous MODIS Aqua images and AERONET-OC data, and then tested with a MODIS Aqua image over the western Pacific Ocean. Results showed that the switching threshold for R-rs(469), R-rs(555), R-rs(645) and R-rs(859) were 0.009, 0.016, 0.009 and 0.0006 sr(-1), respectively; R-rs(645) with a threshold of 0.009 sr(-1) and R-rs(555) with a threshold of 0.016 sr(-1) worked well for NIR-SWIR algorithm, while R-rs(469) and R-rs(859) produced worse performance. Therefore, R-rs(555) > 0.016 sr(-1) or R-rs(645) > 0.009 sr(-1) was recommended as the switching scheme for NIR-SWIR algorithm. Considering contrasted estuarine, coastal and some inland waters, combining NIR- and SWIR-based atmospheric correction algorithm with the proposed switching scheme should be useful for remote sensing monitoring over these waters.

DOI:
10.1016/j.isprsjprs.2019.04.013

ISSN:
0924-2716