Affiliation:
1. Natural Resources Survey and Monitoring Research Centre, Chinese Academy of Surveying and Mapping, Beijing 100830, China
2. School of Artificial Intelligence, Beijing Technology and Business University, Beijing 100048, China
3. Guangxi Zhuang Autonomous Region Institute of Natural Resources Remote Sensing, Nanning 530201, China
Abstract
In the era of remote sensing big data, the intelligent interpretation of remote sensing images is a key technology for mining the value of remote sensing big data and promoting a number of major applications, mainly including land cover classification and extraction. Among these, the rapid extraction of open-pit mining areas plays a vital role in current practices for refined mineral resources development and management and ecological–environmental protection in China. However, existing methods are not accurate enough for classification, not fine enough for boundary extraction, and poor in terms of multi-scale adaptation. To address these issues, we propose a new semantic segmentation model based on Transformer, which is called Segmentation for Mine—SegMine—and consists of a Vision Transformer-based encoder and a lightweight attention mask decoder. The experimental results show that SegMine enhances the network’s ability to obtain local spatial detail information and improves the problem of disappearing small-scale object features and insufficient information expression. It also better preserves the boundary details of open-pit mining areas. Using the metrics of mIoU, precision, recall, and dice, experimental areas were selected for comparative analysis, and the results show that the new method is significantly better than six other existing major Transformer variants.
Funder
Basic Scientific Research Operating Funds of the Chinese Academy of Surveying and Mapping
Reference43 articles.
1. Remote sensing of environment: History, philosophy, approach and contributions, 1969–2019;Bauer;Remote Sens. Environ.,2020
2. Tong, X.Y., Xia, G.S., Lu, Q., Shen, H., Li, S., You, S., and Zhang, L. (2022). Land-cover classification with high-resolution remote sensing images using transferable deep models. arXiv.
3. Deep learning for multi-modal classification of cloud, shadow and land cover scenes in PlanetScope and Sentinel-2 imagery;Shendryk;ISPRS J. Photogramm. Remote Sens.,2019
4. SO–CNN based urban functional zone fine division with VHR remote sensing image;Zhou;Remote Sens. Environ.,2020
5. Implementation of machine-learning classification in remote sensing: An applied review;Maxwell;Int. J. Remote Sens.,2018