有样本缺失的稀疏保持典型相关分析<sup>*</sup>

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摘要在典型相关分析(CCA)的基础上，通过稀疏保持引入样本的类别信息，利用交叉相关项克服CCA及其推广算法要求不同视图样本必须成对出现的局限，提出一种有监督学习方法——有样本缺失的稀疏保持典型相关分析(SPCCAM)。SPCCAM能在训练样本不成对的情况下进行多视图特征融合。在人工数据集、手写体数据集和PIE人脸数据集上的实验结果表明，SPCCAM能有效利用类信息提高分类性能。

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	祖辰
	张道强

关键词 ：典型相关分析(CCA), 缺失样本, 稀疏保持, 多视图降维

Abstract：Based on the canonical correlation analysis (CCA), a supervised learning algorithm, sparsity preserving CCA with missing samples (SPCCAM), is proposed. The class information of samples is introduced by sparsity preserving and cross correlation is used to overcome the limitations of the CCA and its extensions that the paired samples of different views are required. SPCCAM can combine features from different views with unpaired training samples. The experimental results on the artificial dataset, multiple feature database and PIE facial database show that the proposed SPCCAM effectively enhances the classification performance by using class information.

Key words： Canonical Correlation Analysis(CCA) Missing Sample Sparsity Preserving Multi-View Dimensionality Reduction

收稿日期: 2013-05-13

ZTFLH:

TP 181

基金资助:高等学校博士学科点专项科研基金项目(No.20123218110009)、南京航空航天大学基本科研业务费项目(No.NE2013105)资助

作者简介: 祖辰，男，1988年生，博士研究生，主要研究方向为机器学习、图像处理.E-mail:zuchen@nuaa.edu.cn.张道强(通讯作者)，男，1978年生，教授，博士生导师，主要研究方向为机器学习、模式识别、医学图像分析等.E-mail:dqzhang@nuaa.edu.cn.

引用本文:

祖辰，张道强. 有样本缺失的稀疏保持典型相关分析^*[J]. 模式识别与人工智能, 2014, 27(2): 179-186. ZU Chen, ZHANG Dao-Qiang. Sparsity Preserving Canonical Correlation Analysis with Missing Samples. , 2014, 27(2): 179-186.

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http://manu46.magtech.com.cn/Jweb_prai/CN/ 或 http://manu46.magtech.com.cn/Jweb_prai/CN/Y2014/V27/I2/179

[1] Guillaumin M, Verbeek J, Schmid C. Multimodal Semi-Supervised Learning for Image Classification // Proc of the IEEE Conference on Computer Vision and Pattern Recognition. San Francisco, USA, 2010: 902-909
[2] Hotelling H. Relations between Two Sets of Variates. Biometrika, 1936, 28(3/4): 321-377
[3] Devijver P A, Kittler J. Pattern Recognition: A Statistical Approach. Upper Saddle River, USA: Prentice Hall, 1982
[4] Zheng W M, Zhou X Y, Zou C R, et al. Facial Expre-ssion Recognition Using Kernel Canonical Correlation Analysis. IEEE Trans on Neural Networks, 2006, 17(1): 233-238
[5] Hardoon D R, Shawe-Taylor J. Sparse Canonical Correlation Ana-lysis. Machine Learning, 2011, 83(3): 331-353
[6] Nielsen A A. Multiset Canonical Correlations Analysis and Multispectral, Truly Multitemporal Remote Sensing Data. IEEE Trans on Image Processing, 2002, 11(3): 293-305
[7] Abraham B, Merola G. Dimensionality Reduction Approach to Multivariate Prediction. Computational Statistics & Data Analysis, 2005, 48(1): 5-16
[8] Li Y Y, Shawe-Taylor J. Using KCCA for Japanese-English Cross-Language Information Retrieval and Document Classification. Journal of Intelligent Information Systems, 2006, 27(2): 117-133
[9] Vinokourov A, Shawe-Taylor J, Cristianini J. Inferring a Semantic Representation of Text via Cross-Language Correlation Analysis[EB/OL]. [2013-04-16]. http://machinelearning.wustl.edu/mlpapers/paper_files/AP10.pdf
[10] Dempster A P, Laird N M, Rubin D B. Maximum Likelihood from Incomplete Data via the EM Algorithm. Journal of the Royal Statistical Society: Series B, 1977, 39(1): 1-38
[11] Zhang D Q, Chen S C. Clustering Incomplete Data Using Kernel-Based Fuzzy C-means Algorithm. Neural Processing Letters, 2003, 18(3): 155-162
[12] Walczak B, Massart D. Dealing with Missing Data: Part I. Chemometrics and Intelligent Laboratory Systems, 2001, 58(1): 15-27
[13] Kim H, Golub G H, Park H. Missing Value Estimation for DNA Microarray Gene Expression Data: Local Least Squares Imputation. Bioinformatics, 2005, 21(2): 187-198
[14] Slaney M, Covell M. FaceSync: A Linear Operator for Measuring Synchronization of Video Facial Images and Audio Tracks[EB/OL].[2013-04-16]. http://www.cs.cmu.edu/Groups/NIPS/
00papers-pub-on-web/SlaneyCovell.pdf
[15] Sun T K. Research on Enhanced Canonical Correlation Analysis with Applications. Ph.D Dissertations. Nanjing, China: Nanjing University of Aeronautics and Astronautics, 2006 (in Chinese)
(孙廷凯.增强型典型相关分析研究与应用.博士学位论文.南京:南京航空航天大学, 2006)
[16] Chen X H, Chen S C, Xue H, et al. A Unified Dimensionality Reduction Framework for Semi-Paired and Semi-Supervised Multi-view Data. Pattern Recognition, 2012, 45(5): 2005-2018
[17] Hoegaerts L, Suykens J A K, Vandewalle J, et al. Subset Based Least Squares Subspace Regression in RKHS. Neruocomputing, 2005, 63: 293-323
[18] Sun T K, Chen S C. Locality Preserving CCA with Applications to Data Visualization and Pose Estimation. Image and Vision Computing, 2007, 25(5): 531-543
[19] Arizona State University. SLEP: Sparse Learning with Efficient Projections[DB/OL]. [2013-04-16]. http://www.public.asu.edu/~jye02/Software/SLEP
[20] Zu C, Zhang D Q. Sparsity Preserving Canonical Correlation Analysis // Proc of the 5th Chinese Conference on Pattern Recognition. Beijing, China, 2012: 56-63
[21] Sun Q S, Zeng S G, Liu Y, et al. A New Method of Feature Fusion and Its Application in Image Recognition. Pattern Recognition, 2005, 38(12): 2437-2448
[22] Sun T K, Chen S C, Yang J Y, et al. Discriminative Canonical Correlation Analysis with Missing Samples // Proc of the WRI World Congress on Computer Science and Information Engineering. Los Angeles, USA, 2009: 95-99
[23] He X F, Yan S C, Hu Y X, et al. Face Recognition Using Laplacianfaces. IEEE Trans on Pattern Analysis and Machine Intelligence, 2005, 27(3): 328-340
[24] Cai D, He X F, Hu Y X, et al. Learning a Spatially Smooth Subspace for Face Recognition // Proc of the IEEE Conference on Computer Vision and Pattern Recognition. Minneapolis, USA, 2007: 1-7
[25] Zhang D Q, Liu W Q. An Efficient Nonnegative Matrix Factorization Approach in Flexible Kernel Space // Proc of the 21st International Joint Conference on Artificial Intelligence. Pasadena, USA, 2009: 1345-1350
[26] Zhang D Q, Zhou Z H, Chen S C. Non-Negative Matrix Factorization on Kernels // Proc of the 9th Pacific Rim International Conference on Artificial Intelligence. Guilin, China, 2006: 404-412