近似稀疏约束的多层非负矩阵分解高光谱解混

徐晨光; 邓承志; 朱华生; 徐晨光; 邓承志; 朱华生

doi:10.3788/IRLA201847.1117010

[1]

Yang Jingxiang, Zhao Yongqiang, Chan Jonathan Cheungwai, et al. Coupled sparse denoising and unmixing with low-rank constraint for hyperspectral image[J]. IEEE Transactions on Geoscience and Remote Sensing, 2016, 54(3):1818-1833.

[2]

Lee D D, Seung H S. Algorithms for non-negative matrix factorization[J]. Advances in Neural Information Processing Systems, 2001, 13:556-562.

[3]

Deng Chengzhi, Zhang Shaoquan, Wang Shengqian, et al. Hyperspectral unmixing algorithm based on L1 regularization[J]. Infrared and Laser Engineering, 2015, 44(3):1092-1097. (in Chinese)邓承志, 张绍泉, 汪胜前, 等. L1稀疏正则化的高光谱混合像元分解算法比较[J]. 红外与激光工程, 2015, 44(3):1092-1097.

[4]

Chen Yunjie, Ge Weidong, Sun Le. A novel linear hyperspectral unmixing method based on collaborative sparsity and total variation[J]. Acta Automatica Sinica, 2017(1):1-13. (in Chinese)陈允杰, 葛魏东, 孙乐. 一种基于协同稀疏和全变差的高光谱线性解混方法[J]. 自动化学报, 2017(1):1-13.

[5]

Wei Daozhi, Huang Shucai, Zhao Yan, et al. Non-negative sparse representation for anomaly detection in hyperspectral imagery[J]. Infrared and Laser Engineering, 2016, 45(S2):S223001. (in Chinese)韦道知, 黄树彩, 赵岩, 等. 非负谱稀疏表示的高光谱成像中的异常检测[J]. 红外与激光工程, 2016, 45(S2):S223001.

[6]

Li Yan, Deng Chengzhi, Wang Shengqian, et al. Sparse unmixing based on simple L1/2 regularization[J]. Journal of Jiangxi Science Technology Normal University, 2016, 35(6):82-89, 95. (in Chinese)李彦, 邓承志, 汪胜前, 等. 基于简单L1/2稀疏正则化的高光谱混合像元分解[J]. 江西科技师范大学学报, 2016, 35(6):82-89, 95.

[7]

Wei Yiwei, Huang Shiqi, Wang Yiting, et al. Volume and sparseness constrained algorithm for hyperspectral unmixing[J]. Infrared and Laser Engineering, 2014, 43(4):1247-1254. (in Chinese)魏一苇, 黄世奇, 王艺婷, 等. 基于体积和稀疏约束的高光谱混合像元分解算法[J]. 红外与激光工程, 2014, 43(4):1247-1254.

[8]

Candes E J, Romberg J, Tao T. Robust uncertainty principles:exact signal reconstruction from highly incomplete frequency information[J]. IEEE Transactions on Information Theory, 2006, 52(2):489-509.

[9]

Gao Tai. Hyperspectral unmixing based on approximate sparsity constrainted nonnegative matrix fadorization[D]. Nanchang:Jiangxi Science Technology Normal University, 2015. (in Chinese)高钛. 基于近似稀疏约束非负矩阵分解的高光谱图像混合像元分解[D]. 南昌:江西科技师范大学, 2015.

[10]

Rajabi R, Ghassemian H. Spectral unmixing of hyperspectral imagery using multilayer NMF[J]. IEEE Geoscience Remote Sensing Letters, 2014, 12(1):38-42.

[11]

Cichocki A, Zdunek R. Multilayer nonnegative matrix factorization[J]. Electronics Letters, 2006, 42(16):947-948.

[12]

Cichocki A, Zdunek R, Choi S, et al. Novel multi-layer non-negative tensor factorization with sparsity constraints[J]. Adaptive and Natural Computing Algorithms, 2007, 4432:271-280.

[13]

Xu Chenguang, Deng Chenzhi. Comparisons and analysis of sparsity based non-negative matrix factorization for hyperspectral unmixing[J]. Journal of Nanchang Institute of Technology, 2017, 36(6):78-87. (in Chinese)徐晨光, 邓承志. 稀疏正则化的非负矩阵分解高光谱解混算法比较与分析[J]. 南昌工程学院学报, 2017, 36(6):78-87.

[14]

Xu Zongben, Zhang H, Wang Y, et al. L1/2 regularization[J]. Sci China, 2010, 53(6):1159-1169.

[15]

Lee D D, Seung H S. Learning the parts of objects by nonnegative matrix factorization[J]. Nature, 1999, 401(1):788-791.

[16]

Bertsekas D P. Constrained Optimization and Lagrange Multiplier Methods[M]. New York:A Subsidiary of Harcourt Brace Jovanovich Publisher, 1982.