An efficient discriminant-based solution for small sample size problem
作者:
Highlights:
•
摘要
Classification of high-dimensional statistical data is usually not amenable to standard pattern recognition techniques because of an underlying small sample size problem. To address the problem of high-dimensional data classification in the face of a limited number of samples, a novel principal component analysis (PCA) based feature extraction/classification scheme is proposed. The proposed method yields a piecewise linear feature subspace and is particularly well-suited to difficult recognition problems where achievable classification rates are intrinsically low. Such problems are often encountered in cases where classes are highly overlapped, or in cases where a prominent curvature in data renders a projection onto a single linear subspace inadequate. The proposed feature extraction/classification method uses class-dependent PCA in conjunction with linear discriminant feature extraction and performs well on a variety of real-world datasets, ranging from digit recognition to classification of high-dimensional bioinformatics and brain imaging data.
论文关键词:Feature extraction,Principal component analysis,Classification,Linear discriminant analysis,Bayes error
论文评审过程:Received 7 May 2008, Revised 25 August 2008, Accepted 29 August 2008, Available online 2 October 2008.
论文官网地址:https://doi.org/10.1016/j.patcog.2008.08.036