Discriminant analysis based feature extraction for pattern recognition
Fisher's linear discriminant analysis (FLDA) has been widely used in pattern recognition applications. However, this method cannot be applied for solving the pattern recognition problems if the within-class scatter matrix is singular, a condition that occurs when the number of the samples is sm...
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ndltd-LACETR-oai-collectionscanada.gc.ca-QMG.9766562013-10-22T03:48:14Z Discriminant analysis based feature extraction for pattern recognition Wu, Wei Fisher's linear discriminant analysis (FLDA) has been widely used in pattern recognition applications. However, this method cannot be applied for solving the pattern recognition problems if the within-class scatter matrix is singular, a condition that occurs when the number of the samples is small relative to the dimension of the samples. This problem is commonly known as the small sample size (SSS) problem and many of the FLDA variants proposed in the past to deal with this problem suffer from excessive computational load because of the high dimensionality of patterns or lose some useful discriminant information. This study is concerned with developing efficient techniques for discriminant analysis of patterns while at the same time overcoming the small sample size problem. With this objective in mind, the work of this research is divided into two parts. In part 1, a technique by solving the problem of generalized singular value decomposition (GSVD) through eigen-decomposition is developed for linear discriminant analysis (LDA). The resulting algorithm referred to as modified GSVD-LDA (MGSVD-LDA) algorithm is thus devoid of the singularity problem of the scatter matrices of the traditional LDA methods. A theorem enunciating certain properties of the discriminant subspace derived by the proposed GSVD-based algorithms is established. It is shown that if the samples of a dataset are linearly independent, then the samples belonging to different classes are linearly separable in the derived discriminant subspace; and thus, the proposed MGSVD-LDA algorithm effectively captures the class structure of datasets with linearly independent samples. Inspired by the results of this theorem that essentially establishes a class separability of linearly independent samples in a specific discriminant subspace, in part 2, a new systematic framework for the pattern recognition of linearly independent samples is developed. Within this framework, a discriminant model, in which the samples of the individual classes of the dataset lie on parallel hyperplanes and project to single distinct points of a discriminant subspace of the underlying input space, is shown to exist. Based on this model, a number of algorithms that are devoid of the SSS problem are developed to obtain this discriminant subspace for datasets with linearly independent samples. For the discriminant analysis of datasets for which the samples are not linearly independent, some of the linear algorithms developed in this thesis are also kernelized. Extensive experiments are conducted throughout this investigation in order to demonstrate the validity and effectiveness of the ideas developed in this study. It is shown through simulation results that the linear and nonlinear algorithms for discriminant analysis developed in this thesis provide superior performance in terms of the recognition accuracy and computational complexity 2009 Thesis NonPeerReviewed application/pdf http://spectrum.library.concordia.ca/976656/1/NR63403.pdf Wu, Wei <http://spectrum.library.concordia.ca/view/creators/Wu=3AWei=3A=3A.html> (2009) Discriminant analysis based feature extraction for pattern recognition. PhD thesis, Concordia University. http://spectrum.library.concordia.ca/976656/ |
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Fisher's linear discriminant analysis (FLDA) has been widely used in pattern recognition applications. However, this method cannot be applied for solving the pattern recognition problems if the within-class scatter matrix is singular, a condition that occurs when the number of the samples is small relative to the dimension of the samples. This problem is commonly known as the small sample size (SSS) problem and many of the FLDA variants proposed in the past to deal with this problem suffer from excessive computational load because of the high dimensionality of patterns or lose some useful discriminant information. This study is concerned with developing efficient techniques for discriminant analysis of patterns while at the same time overcoming the small sample size problem. With this objective in mind, the work of this research is divided into two parts. In part 1, a technique by solving the problem of generalized singular value decomposition (GSVD) through eigen-decomposition is developed for linear discriminant analysis (LDA). The resulting algorithm referred to as modified GSVD-LDA (MGSVD-LDA) algorithm is thus devoid of the singularity problem of the scatter matrices of the traditional LDA methods. A theorem enunciating certain properties of the discriminant subspace derived by the proposed GSVD-based algorithms is established. It is shown that if the samples of a dataset are linearly independent, then the samples belonging to different classes are linearly separable in the derived discriminant subspace; and thus, the proposed MGSVD-LDA algorithm effectively captures the class structure of datasets with linearly independent samples. Inspired by the results of this theorem that essentially establishes a class separability of linearly independent samples in a specific discriminant subspace, in part 2, a new systematic framework for the pattern recognition of linearly independent samples is developed. Within this framework, a discriminant model, in which the samples of the individual classes of the dataset lie on parallel hyperplanes and project to single distinct points of a discriminant subspace of the underlying input space, is shown to exist. Based on this model, a number of algorithms that are devoid of the SSS problem are developed to obtain this discriminant subspace for datasets with linearly independent samples. For the discriminant analysis of datasets for which the samples are not linearly independent, some of the linear algorithms developed in this thesis are also kernelized. Extensive experiments are conducted throughout this investigation in order to demonstrate the validity and effectiveness of the ideas developed in this study. It is shown through simulation results that the linear and nonlinear algorithms for discriminant analysis developed in this thesis provide superior performance in terms of the recognition accuracy and computational complexity |
author |
Wu, Wei |
spellingShingle |
Wu, Wei Discriminant analysis based feature extraction for pattern recognition |
author_facet |
Wu, Wei |
author_sort |
Wu, Wei |
title |
Discriminant analysis based feature extraction for pattern recognition |
title_short |
Discriminant analysis based feature extraction for pattern recognition |
title_full |
Discriminant analysis based feature extraction for pattern recognition |
title_fullStr |
Discriminant analysis based feature extraction for pattern recognition |
title_full_unstemmed |
Discriminant analysis based feature extraction for pattern recognition |
title_sort |
discriminant analysis based feature extraction for pattern recognition |
publishDate |
2009 |
url |
http://spectrum.library.concordia.ca/976656/1/NR63403.pdf Wu, Wei <http://spectrum.library.concordia.ca/view/creators/Wu=3AWei=3A=3A.html> (2009) Discriminant analysis based feature extraction for pattern recognition. PhD thesis, Concordia University. |
work_keys_str_mv |
AT wuwei discriminantanalysisbasedfeatureextractionforpatternrecognition |
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