Weighted and robust learning of subspace representations

作者:

Highlights:

摘要

A reliable system for visual learning and recognition should enable a selective treatment of individual parts of input data and should successfully deal with noise and occlusions. These requirements are not satisfactorily met when visual learning is approached by appearance-based modeling of objects and scenes using the traditional PCA approach. In this paper we extend standard PCA approach to overcome these shortcomings. We first present a weighted version of PCA, which, unlike the standard approach, considers individual pixels and images selectively, depending on the corresponding weights. Then we propose a robust PCA method for obtaining a consistent subspace representation in the presence of outlying pixels in the training images. The method is based on the EM algorithm for estimation of principal subspaces in the presence of missing data. We demonstrate the efficiency of the proposed methods in a number of experiments.

论文关键词:Appearance-based modeling,Robust learning,Principal component analysis,Weighted PCA,Missing pixels,Robust PCA

论文评审过程:Received 19 July 2005, Revised 17 July 2006, Accepted 18 September 2006, Available online 28 November 2006.

论文官网地址:https://doi.org/10.1016/j.patcog.2006.09.019