地物光谱匹配模型比较研究
许卫东, 尹球, 匡定波. 地物光谱匹配模型比较研究[J]. 红外与毫米波学报, 2005, 24(4): 296.
许卫东, 尹球, 匡定波. COMPARISON OF DIFFERENT SPECTRAL MATCH MODELS[J]. Journal of Infrared and Millimeter Waves, 2005, 24(4): 296.
[1] Kruse F A, Lefkoff A B, Boardman J W, et al. The spectral image processing system (SIPS)-software for integrated analysis of AVIRIS data [C]. Summaries of the 4th Annual JPL Airborne Geoscience Workshop. Pasadena: JPL Pub, 1992, 23-25
[2] Carvalho Jr O A, Meneses P R. Spectral correlation mapper (SCM):An improving spectral angle mapper [C]. In:Ninth JPL Airborne Earth Science Workshop. Pasadena: JPL Publication, 2000, 65-74.
[3] Osmar, Ana Paula, Paulo Roberto, et al. Spectral identification method (Sim):A new classifier based on the anova and spectral correlation mapper (SCM) methods [C]. Pasadena: JPL Publication, 2001.
[4] Clark R N, Swayze G A. Mapping minerals, amorphous materials, environmental materials, vegetation, water, ice and snow, and other materials:The USGS tricorder algorithm [C]. In:Summaries of the Fifth JPL Airborne Earth Science Workshop. Pasadena: JPL Publication, 1995,39-40.
[5] PU Rui-Liang, GONG Peng. Hyperspectral Pemote Sensing and its Application [M]. Higher education press (浦瑞良,宫鹏. 高光谱遥感及其应用.北京:高等教育出版社),2000.8.
[8] . Hyperspectral data mining-toward target recognition and classification[J]. Journal of Image and Graphics (王晋年,张兵,刘建贵,等.以地物识别和分类为目标的高光谱数据挖掘. 中国图形图像学报), 1999, 11(4): 957-964.
[9] LI Jin-Zong. Introduction to Pattern Recognition [M]. Beijing:Higher education press (李金宗.模式识别导论.北京:高等教育出版社),1994.7
收稿 掌冢 003年11月3日
许卫东, 尹球, 匡定波. 地物光谱匹配模型比较研究[J]. 红外与毫米波学报, 2005, 24(4): 296. 许卫东, 尹球, 匡定波. COMPARISON OF DIFFERENT SPECTRAL MATCH MODELS[J]. Journal of Infrared and Millimeter Waves, 2005, 24(4): 296.