Title :
Grassmannian Sparse Representations and Motion Depth Surfaces for 3D Action Recognition
Author :
Azary, Sherif ; Savakis, Andreas
Author_Institution :
Comput. & Inf. Sci., Rochester Inst. of Technol., Rochester, NY, USA
Abstract :
Manifold learning has been effectively used in computer vision applications for dimensionality reduction that improves classification performance and reduces computational load. Grassmann manifolds are well suited for computer vision problems because they promote smooth surfaces where points are represented as subspaces. In this paper we propose Grassmannian Sparse Representations (GSR), a novel subspace learning algorithm that combines the benefits of Grassmann manifolds with sparse representations using least squares loss L1-norm minimization for optimal classification. We further introduce a new descriptor that we term Motion Depth Surface (MDS) and compare its classification performance against the traditional Motion History Image (MHI) descriptor. We demonstrate the effectiveness of GSR on computationally intensive 3D action sequences from the Microsoft Research 3D-Action and 3D-Gesture datasets.
Keywords :
computer vision; image classification; image motion analysis; image representation; least squares approximations; minimisation; 3D action recognition; 3D action sequence; GSR; Grassmann manifold; Grassmannian sparse representations; MDS; classification performance; computational load reduction; computer vision application; dimensionality reduction; least squares loss L1-norm minimization; manifold learning; motion depth surface; optimal classification; subspace learning algorithm; Accuracy; Classification algorithms; Kernel; Manifolds; Principal component analysis; Three-dimensional displays; Training;
Conference_Titel :
Computer Vision and Pattern Recognition Workshops (CVPRW), 2013 IEEE Conference on
Conference_Location :
Portland, OR
DOI :
10.1109/CVPRW.2013.79
