Abstract
When the use of optical images is not practical due to cloud cover, Synthetic Aperture Radar (SAR) imagery is a preferred alternative for monitoring coastal wetlands because it is unaffected by weather conditions. Polarimetric SAR (PolSAR) enables the detection of different backscattering mechanisms and thus has potential applications in land cover classification. Gaofen-3 (GF-3) is the first Chinese civilian satellite with multi-polarized C-band SAR imaging capability. Coastal wetland classification with GF-3 polarimetric SAR imagery has attracted increased attention in recent years, but it remains challenging. The aim of this study was to classify land cover in coastal wetlands using an object-oriented random forest algorithm on the basis of GF-3 polarimetric SAR imagery. First, a set of 16 commonly used SAR features was extracted. Second, the importance of each SAR feature was calculated, and the optimal polarimetric features were selected for wetland classification by combining random forest (RF) with sequential backward selection (SBS). Finally, the proposed algorithm was utilized to classify different land cover types in the Yancheng Coastal Wetlands. The results show that the most important parameters for wetland classification in this study were Shannon entropy, Span and orientation randomness, combined with features derived from Yamaguchi decomposition, namely, volume scattering, double scattering, surface scattering and helix scattering. When the object-oriented RF classification approach was used with the optimal feature combination, different land cover types in the study area were classified, with an overall accuracy of up to 92%.
Highlights
Coastal wetlands, which play a significant role in protecting biodiversity, controlling runoff and regulating climate [1,2], are some of the most heavily used and threatened natural systems
Synthetic Aperture Radar (SAR) image has become an important means of wetland research, but studies using
In feature set optimization, analyzing the influence of features on the basis of only the accuracy of wetland classification cannot meet the needs of this type of research
Summary
Coastal wetlands, which play a significant role in protecting biodiversity, controlling runoff and regulating climate [1,2], are some of the most heavily used and threatened natural systems. Despite the success of optical satellite data in applications such as wetland detection and water level monitoring [3,4,5], optical images are less useful in coastal areas due to cloud cover [6]. Gaofen-3 (GF-3), launched on 10 August 2016, is the first Chinese civilian satellite to be equipped with multi-polarized C-band SAR at the meter-level resolution [13]. The SAR payload can support observations in single-, dual- and quad-polarization modes, and its products can be used in marine environmental monitoring, resource surveys and disaster prevention [14]. The advantages of SAR data with high spatial resolution from a variety of satellites, such as RADARSAT-2 [15,16], Sentinel-1 [17] and ALOS-2 [18], have been demonstrated in different applications.
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