Learning weighted sparse representation of encoded facial normal information for expression-robust 3D face recognition

Authors:
Huibin Li; Di Huang;Jean-Marie Morvan;Liming Chen
Affiliations:
Université de Lyon, CNRS, LIRIS UMR5205, F-69134, France;Université de Lyon, CNRS, LIRIS UMR5205, F-69134, France;Université de Lyon, CNRS, LIRIS UMR5205, F-69134, France;Université de Lyon, CNRS, LIRIS UMR5205, F-69134, France
Venue:
IJCB '11 Proceedings of the 2011 International Joint Conference on Biometrics
Year:
2011

Citing 0
Cited 2

meshSIFT: Local surface features for 3D face recognition under expression variations and partial data

Computer Vision and Image Understanding
Expression-robust 3D face recognition via weighted sparse representation of multi-scale and multi-component local normal patterns

Neurocomputing

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Abstract

This paper proposes a novel approach for 3D face recognition by learning weighted sparse representation of encoded facial normal information. To comprehensively describe 3D facial surface, three components, in X, Y, and Z-plane respectively, of normal vector are encoded locally to their corresponding normal pattern histograms. They are finally fed to a sparse representation classifier enhanced by learning based spatial weights. Experimental results achieved on the FRGC v2.0 database prove that the proposed encoded normal information is much more discriminative than original normal information. Moreover, the patch based weights learned using the FRGC v1.0 and Bosphorus datasets also demonstrate the importance of each facial physical component for 3D face recognition.