Title :
Sparse 2-D Canonical Correlation Analysis via Low Rank Matrix Approximation for Feature Extraction
Author :
Yan, Jingjie ; Zheng, Wenming ; Zhou, Xiaoyan ; Zhao, Zhijian
Author_Institution :
Res. Center for Learning Sci., Southeast Univ., Nanjing, China
Abstract :
Although 2-D canonical correlation analysis (2DCCA) has been proposed to reduce the computational complexity while reserving local data structure of image, the learned canonical variables of 2DCCA are the linear combination of all the original variables, which makes it hard to interpret the solutions and might have less generality. In this paper, we propose a sparse 2-D canonical correlation analysis (S2DCCA) to solve the drawbacks of the 2DCCA method and apply it to image feature extraction. The basic idea of S2DCCA is to impose two lasso penalties on the objective function of 2DCCA to obtain two sets of sparse projection directions via low rank matrix approximation. We conduct extensive experiments on both FERET and AR databases to evaluate the performance of the proposed method.
Keywords :
computational complexity; correlation methods; feature extraction; matrix algebra; 2DCCA method; canonical variables; computational complexity; image feature extraction; low rank matrix approximation; sparse 2D canonical correlation analysis; sparse projection; Approximation methods; Correlation; Feature extraction; Matrix decomposition; Optimization; Sparse matrices; Vectors; Canonical correlation analysis; low rank matrix approximation; sparse 2-D canonical correlation analysis;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2011.2177259
