Affiliation:
1. State Key Laboratory of Information Engineering in Surveying, Mapping and Remote Sensing Wuhan University Wuhan China
2. College of Urban and Environmental Sciences Central China Normal University Wuhan China
3. School of Geomatics Science and Technology Nanjing Tech University Nanjing China
Abstract
ABSTRACTSandy beaches, widespread in coastal areas, provide valuable economic and ecological benefits. However, a substantial proportion of sandy beaches are undergoing erosion caused by marine disasters and human interventions. Advanced sandy beach extraction (SBE) approaches are indispensable to sandy beach observation and protection. This study proposes a novel two‐step SBE approach using remote sensing images and digital elevation models. First, sea–land segmentation is performed as a preparatory work. We model sea–land segmentation as an optimization problem and develop an improved NSGA‐II, SCS‐NSGA‐II, to solve it, considering both topographical and spectral costs. Second, a region growing algorithm is applied to generate the final sandy beach extents. The assessment results verify that (1) our approach effectively reduces the false‐positive rate, thereby resulting in more accurate SBE results compared with existing approaches. (2) SCS‐NSGA‐II ensures the diversity of individuals in spatial patterns and exhibits superior performance compared with NSGA‐II in this task.