Huang Rui, He Ming-yi. Band Selection Using Divergence of Class-within PCA in Hyperspectral Images Classification[J]. Journal of Electronics & Information Technology, 2005, 27(10): 1588-1592.
Citation:
Huang Rui, He Ming-yi. Band Selection Using Divergence of Class-within PCA in Hyperspectral Images Classification[J]. Journal of Electronics & Information Technology, 2005, 27(10): 1588-1592.
Huang Rui, He Ming-yi. Band Selection Using Divergence of Class-within PCA in Hyperspectral Images Classification[J]. Journal of Electronics & Information Technology, 2005, 27(10): 1588-1592.
Citation:
Huang Rui, He Ming-yi. Band Selection Using Divergence of Class-within PCA in Hyperspectral Images Classification[J]. Journal of Electronics & Information Technology, 2005, 27(10): 1588-1592.
Band selection from multispectral or hyperspectral image data is an effective method to remove redundancy among bands and thus reduce dimension. An efficient algorithm using divergence based class-within principal component analysis (PCA) and analysis of corresponding coefficients is proposed. At first, the covariance of each class is diagonalized through PCA transforms on class data respectively, and then the divergence only depends on the summation of individual feature separability of transformed bands. Secondly, after an analysis of corresponding PCA transform coefficients, the candidate bands, original bands essential to classification, are determined by majority vote. At last, the final band subset is obtained by analyzing the dependency and divergence of bands in every subset generated according to the correlations of original band in candidates. Compared with sequential forward selection, the proposed method reduces the computation complexity, and encouraging results have been shown by experiments with an Airborne Visible/InfraRed Imaging Spectrometer (AVIRIS) data set.
Velez-Reyes M, Linares D M. Comparison of principal-compon-[2]ent-based band selection methods for hyperspectral imagery. Image and Signal Processing for Remote Sensing VII, Proc[J].SPIE.2002, 4541:361-369[3]Withagen Paul J, Breejen Eric den, et al.. Band selection from a hyperspectral data-cube for a real-time multispectral 3CCD camera. Algorithms for Multispectral, Hyperspectral, and Ultraspectral Imagery VII, Proc. SPIE AeroSense, 2001, 4381: 84 93.Sheffer D, Ultchin Y. Comparison of band selection results using.[4]different class separation measures in various day and night conditions. Algorithms and Technologies for Multispectral, Hyperspectral, and Ultraspectral Imagery IX, Proc[J].SPIE.2003, 5093:452-461[5]Swain P H, King R C. Two effective feature selection criteria for multispectral remote sensing. First International Joint Conference on Pattern Recognition, Washington, DC, 1973: 536-540.[6]J. P. Marques de s著,吴逸飞译. 模式识别原理、方法及[7]应用. 北京: 清华大学出版社, 2002 : 116-118.[8]Chang Chein-I, Du Qian, et al.. A joint band prioritization and band-decorrelation approach to band selection for hyperspectral[9]image classification. IEEE Trans[J].on Geoscience and Remote Sensing.1999, 37(6):2631-2641
DownLoad: