基于低秩矩阵近似的低噪宽幅热红外成像技术
[1] ZHOU Shi-Chun. Introduction to advanced infrared opto-electronics engineering [M]. Beijing: Science Press (周世椿. 高级红外光电工程导论. 北京: 科学出版社) 2014: 8.
[2] GUO Yan, WANG Jiang-An, HE Ying-Zhou. Study of detecting thermal track of submarines by infrared image. [J]. Journal of Naval University of Engineering (国妍, 王江安, 何英洲. 红外热像水面寻迹探测的理论分析. 海军工程大学学报) 2002, 14(3): 89-92.
[4] Protter M, Elad M. Image sequence denoising via sparse and redundant representations [J]. IEEE Transaction on Image Processing, 2009, 18(1):27-35.
[5] PENG Yi-Gang, SUO Jin-Li, DAI Qiong-Hai, et al. From compressed sensing to low-rank matrix recovery: Theory and applications [J]. Acta Automatica Sinica (彭义刚, 索津莉, 戴琼海, 等. 从压缩传感到低秩矩阵恢复: 理论与应用. 自动化学报) 2013, 39(7): 981-994.
[6] Ye J P. Generalized low rank approximations of matrices [J]. Machine Learning, 2005, 61(1):167-191.
[7] Elad M, Aharon M. Image denoising via sparse and redundant representations over learned dictionaries [J]. TIP, 2006,15(12):3736-3745.
[8] Ji H, Liu C, Shen Z, et al. Robust video denoising using low rank matrix completion: Proceedings of the 2010 IEEE Conference on Computer Vision and Pattern Recognition [C]. San Francisco, 2010.
[9] Gu S, Zhang L, Zuo W, et al. Weighted nuclear norm minimization with application to image denoising: Proceedings of the 2014 IEEE Conference on Computer Vision and Pattern Recognition [C]. Columbus, 2014.
[10] Yin K, Lei Z, Zhang Y. An adaptive rank-sparsity K-SVD algorithm for image sequence denoising [J]. Pattern Recognition Letters, 2014, 45:46-54.
[11] Furnival T, Leary R K, Midgley P A. Denoising time-resolved microscopy image sequences with singular value thresholding [J]. Ultramicroscopy, 2017, 178(1):112-124.
[12] Gu S H, Xie Q, Meng D Y, et al. Weighted nuclear norm minimization and its applications to low level vision [J]. International Journal of Computer Vision, 2017, 121:183-208.
[13] Garceau S: TDP MARS LW K508 [R]. France: Sofradir Corporation, 2013.
[14] WANG Zhen-Ping. Research of image denoising using low-rank matrix Recovery [D]. Chengdu: Southwest Jiaotong University (王圳萍. 基于低秩矩阵恢复的图像去噪算法研究, 成都: 西南交通大学) 2012.
[15] Recht B, Fazel M, Parrilo P A. Guaranteed Minimum-Rank Solutions of Linear Matrix Equations via Nuclear Norm Minimization [J]. SIAM Review, 2010, 52(3):471-501.
[16] Cai J F, Candès E J, Shen Z. A singular value thresholding algorithm for matrix completion [J]. SIAM J. Optim, 2010, 20(4):1956-1982.
[17] Candèes E J, Li X D, Ma Y, et al. Robust principal component analysis [J]. Journal of the ACM, 2011, 58(3):1-37.
[18] Zhang Z D, Ganesh A, Liang X, et al. TILT: transform invariant low-rank textures [J]. International Journal of Computer Vision, 2012, 99(1):1-24.
[19] YANG Yu-Zhou. Research of Scanning Imaging Method with Focal Plane Array on the Base of Digital TDI Technology [D]. Beijing: University of Chinese Aacademy of Science (杨育周, 基于数字 TDI 技术的面阵扫描信息获取方式研究, 北京: 中国科学院大学) 2014.
杨暄, 王义坤, 韩贵丞, 刘敏, 姚波, 舒嵘, 亓洪兴. 基于低秩矩阵近似的低噪宽幅热红外成像技术[J]. 红外与毫米波学报, 2018, 37(3): 296. YANG Xuan, WANG Yi-Kun, HAN Gui-Cheng, LIU Min, YAO Bo, SHU Rong, QI Hong-Xing. Denoised and wide swath thermal imaging technology based on low rank matrix approximation[J]. Journal of Infrared and Millimeter Waves, 2018, 37(3): 296.
PDF全文
