A Spectral Signature Shape-Based Algorithm for Landsat Image Classification

• Published in: ISPRS international journal of geo-information Vol. 5; no. 9; p. 154
• Main Authors: Chen, Yuanyuan, Wang, Quanfang, Wang, Yanlong, Duan, Si-Bo, Xu, Miaozhong, Li, Zhao-Liang
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 26.08.2016; MDPI
• Subjects: algorithms; Classification; Computer Science; data collection; Data Structures and Algorithms; Earth system science; Image classification; Land cover; Landsat; quantification; Remote sensing; shape; Similarity; Spectra; spectral curve; Spectral signatures; thematic maps
• ISSN: 2220-9964; 2220-9964
• DOI: 10.3390/ijgi5090154

Land-cover datasets are crucial for earth system modeling and human-nature interaction research at local, regional and global scales. They can be obtained from remotely sensed data using image classification methods. However, in processes of image classification, spectral values have received considerable attention for most classification methods, while the spectral curve shape has seldom been used because it is difficult to be quantified. This study presents a classification method based on the observation that the spectral curve is composed of segments and certain extreme values. The presented classification method quantifies the spectral curve shape and takes full use of the spectral shape differences among land covers to classify remotely sensed images. Using this method, classification maps from TM (Thematic mapper) data were obtained with an overall accuracy of 0.834 and 0.854 for two respective test areas. The approach presented in this paper, which differs from previous image classification methods that were mostly concerned with spectral “value” similarity characteristics, emphasizes the "shape" similarity characteristics of the spectral curve. Moreover, this study will be helpful for classification research on hyperspectral and multi-temporal images.