DocumentCode
157971
Title
Random projections on manifolds of Symmetric Positive Definite matrices for image classification
Author
Alavi, Azadeh ; Wiliem, Arnold ; Kun Zhao ; Lovell, Brian C. ; Sanderson, Conrad
Author_Institution
NICTA, Brisbane, QLD, Australia
fYear
2014
fDate
24-26 March 2014
Firstpage
301
Lastpage
308
Abstract
Recent advances suggest that encoding images through Symmetric Positive Definite (SPD) matrices and then interpreting such matrices as points on Riemannian manifolds can lead to increased classification performance. Taking into account manifold geometry is typically done via (1) embedding the manifolds in tangent spaces, or (2) embedding into Reproducing Kernel Hilbert Spaces (RKHS). While embedding into tangent spaces allows the use of existing Euclidean-based learning algorithms, manifold shape is only approximated which can cause loss of discriminatory information. The RKHS approach retains more of the manifold structure, but may require non-trivial effort to kernelise Euclidean-based learning algorithms. In contrast to the above approaches, in this paper we offer a novel solution that allows SPD matrices to be used with unmodified Euclidean-based learning algorithms, with the true manifold shape well-preserved. Specifically, we propose to project SPD matrices using a set of random projection hyperplanes over RKHS into a random projection space, which leads to representing each matrix as a vector of projection coefficients. Experiments on face recognition, person re-identification and texture classification show that the proposed approach outperforms several recent methods, such as Tensor Sparse Coding, Histogram Plus Epitome, Riemannian Locality Preserving Projection and Relational Divergence Classification.
Keywords
Hilbert spaces; face recognition; image classification; image texture; RKHS approach; Riemannian locality preserving projection; Riemannian manifolds; discriminatory information; face recognition; histogram plus epitome; image classification; manifold geometry; manifold shape; manifold structure; person re-identification; projection coefficients; random projection hyperplanes; random projection space; relational divergence classification; reproducing kernel Hilbert spaces; symmetric positive definite matrices; tangent spaces; tensor sparse coding; texture classification; unmodified Euclidean-based learning algorithms; Covariance matrices; Face recognition; Kernel; Manifolds; Training; Training data; Vectors;
fLanguage
English
Publisher
ieee
Conference_Titel
Applications of Computer Vision (WACV), 2014 IEEE Winter Conference on
Conference_Location
Steamboat Springs, CO
Type
conf
DOI
10.1109/WACV.2014.6836085
Filename
6836085
Link To Document