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- Title
Semantic Segmentation of China's Coastal Wetlands Based on Sentinel-2 and Segformer.
- Authors
Lin, Xufeng; Cheng, Youwei; Chen, Gong; Chen, Wenjing; Chen, Rong; Gao, Demin; Zhang, Yinlong; Wu, Yongbo
- Abstract
Concerning the ever-changing wetland environment, the efficient extraction of wetland information holds great significance for the research and management of wetland ecosystems. China's vast coastal wetlands possess rich and diverse geographical features. This study employs the SegFormer model and Sentinel-2 data to conduct a wetland classification study for coastal wetlands in Yancheng, Jiangsu, China. After preprocessing the Sentinel data, nine classification objects (construction land, Spartina alterniflora (S. alterniflora), Suaeda salsa (S. salsa), Phragmites australis (P. australis), farmland, river system, aquaculture and tidal falt) were identified based on the previous literature and remote sensing images. Moreover, mAcc, mIoU, aAcc, Precision, Recall and F-1 score were chosen as evaluation indicators. This study explores the potential and effectiveness of multiple methods, including data image processing, machine learning and deep learning. The results indicate that SegFormer is the best model for wetland classification, efficiently and accurately extracting small-scale features. With mIoU (0.81), mAcc (0.87), aAcc (0.94), mPrecision (0.901), mRecall (0.876) and mFscore (0.887) higher than other models. In the face of unbalanced wetland categories, combining CrossEntropyLoss and FocalLoss in the loss function can improve several indicators of difficult cases to be segmented, enhancing the classification accuracy and generalization ability of the model. Finally, the category scale pie chart of Yancheng Binhai wetlands was plotted. In conclusion, this study achieves an effective segmentation of Yancheng coastal wetlands based on the semantic segmentation method of deep learning, providing technical support and reference value for subsequent research on wetland values.
- Subjects
CHINA; COASTAL wetlands; DEEP learning; WETLANDS; ECOSYSTEM management; WATERSHEDS; WETLAND management; PHRAGMITES australis; MACHINE learning
- Publication
Remote Sensing, 2023, Vol 15, Issue 15, p3714
- ISSN
2072-4292
- Publication type
Article
- DOI
10.3390/rs15153714