Relaxed 2-D Principal Component Analysis by $L_p$ Norm for Face
  Recognition

A d’Aspremont; A Pentland; D Meng; DM Witten; H Shen; H Wang; H Zou; I Jolliffe; J Wang; J Yang; J Ye; L Sirovich; L Zhao; M Kirby; M Turk; M Zhao; N Kwak; N Kwak; Q Chang; R Ma; X Li; Z Jia; Z Jia; Z Jia; Z Jia; Z Jia; Z Liang; Z-G Jia; ZZ Liang

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Relaxed 2-D Principal Component Analysis by $L_p$ Norm for Face Recognition

Authors: A d’Aspremont
A Pentland
D Meng
DM Witten
H Shen
H Wang
H Zou
I Jolliffe
J Wang
J Yang
J Ye
L Sirovich
L Zhao
M Kirby
M Turk
M Zhao
N Kwak
N Kwak
Q Chang
R Ma
X Li
Z Jia
Z Jia
Z Jia
Z Jia
Z Jia
Z Liang
Z-G Jia
ZZ Liang
Publication date: 15 May 2019
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

A relaxed two dimensional principal component analysis (R2DPCA) approach is proposed for face recognition. Different to the 2DPCA, 2DPCA-

L_1

and G2DPCA, the R2DPCA utilizes the label information (if known) of training samples to calculate a relaxation vector and presents a weight to each subset of training data. A new relaxed scatter matrix is defined and the computed projection axes are able to increase the accuracy of face recognition. The optimal

L_p

-norms are selected in a reasonable range. Numerical experiments on practical face databased indicate that the R2DPCA has high generalization ability and can achieve a higher recognition rate than state-of-the-art methods.Comment: 19 pages, 11 figure

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