Human Gait Recognition Based on Kernel PCA Using Projections

Murat Ekinci; Murat Aykut

Volume 22 Issue 6

November 2007

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Journal of Computer Science and Technology > 2007 > 22(6): 867-876.

Murat Ekinci, Murat Aykut. Human Gait Recognition Based on Kernel PCA Using Projections[J]. Journal of Computer Science and Technology, 2007, 22(6): 867-876.

Citation:

Murat Ekinci, Murat Aykut. Human Gait Recognition Based on Kernel PCA Using Projections[J]. Journal of Computer Science and Technology, 2007, 22(6): 867-876.

Citation:

Murat Ekinci, Murat Aykut. Human Gait Recognition Based on Kernel PCA Using Projections[J]. Journal of Computer Science and Technology, 2007, 22(6): 867-876.

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Human Gait Recognition Based on Kernel PCA Using Projections

Computer Vision Lab, Department of Computer Engineering, Karadeniz Technical University, 61080 Trabzon, Turkey

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Received Date: February 16, 2007
Revised Date: August 05, 2007
Published Date: November 14, 2007

Abstract

Abstract

This paper presents a novel approach for human identification at adistance using gait recognition. Recognition of a person from theirgait is a biometric of increasing interest. The proposed work introducesa nonlinear machine learning method, kernel PrincipalComponent Analysis (PCA), to extract gait features from silhouettes forindividual recognition. Binarized silhouette of amotion object is first represented by four 1-D signals which are thebasic image features called the distance vectors.Fourier transform is performed to achieve translationinvariant for the gait patterns accumulated from silhouette sequenceswhich are extracted from different circumstances.Kernel PCA is then used to extracthigher order relations among the gait patterns for future recognition. Afusion strategy is finally executed to produce a final decision.The experiments are carried out on the CMU and the USF gait databasesand presented based on the different training gait cycles.
- biometrics,
- gait recognition,
- gait representation,
- kernel PCA,
- pattern recognition

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