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Water Extraction from Fully Polarized SAR Based on Combined Polarization and Texture Features

Jikang Wan, Jiayi Wang, Min Zhu

2021Water14 citationsDOIOpen Access PDF

Abstract

Given the limited features (for example, the backscattering coefficient threshold range) of single-channel Synthetic Aperture Radar (SAR) images, it is difficult to distinguish ground objects similar to the backscattering coefficients of water bodies. In this paper, two representative research areas are selected (Yancheng Coastal wetland and Shijiu Lake), and the fully polarized SAR data based on Gaofen-3 are used to extract water bodies using the method of polarization decomposition and gray level co-occurrence matrix. Firstly, the multi-dimensional features of ground objects are extracted, and then the redundancy processing of multi-dimensional features is carried out by the separability index, which effectively solves the misclassification of non-water bodies and water bodies and improves the accuracy of water body extraction. The comparison between the results of full-polarization extraction and single-polarization extraction shows that both full-polarization and single-polarization extraction can extract water information, but the extraction accuracy of the full-polarization method can reach 94.74% in the area with complex wetland features, which can effectively compensate for the lack of precision of the single-polarization method. Although multi-dimensional features can be extracted from fully polarimetric SAR data, data redundancy may exist. Therefore, using the Separability index (SI) to process multi-dimensional features can effectively solve the problem of feature redundancy and improve classification accuracy.

Topics & Concepts

Synthetic aperture radarRemote sensingComputer sciencePolarization (electrochemistry)Redundancy (engineering)Feature extractionPolarimetryArtificial intelligencePattern recognition (psychology)Environmental scienceGeologyScatteringOpticsPhysicsChemistryOperating systemPhysical chemistrySynthetic Aperture Radar (SAR) Applications and TechniquesFlood Risk Assessment and ManagementSoil Moisture and Remote Sensing