Volume
76
Year
2016
Page
10919-10937
Source
Multimedia Tools and Applications
Format Published
PDF
Descriptors
3D human pose recovery , Autoencoders , Manifold learning , Hypergraph , Patch alignment framework
Abstract
Three-Dimensional image-based human pose recovery tries to retrieves 3D poses
with 2D image. Therefore, one of the key problem is how to represent 2D images. However,
semantic gap exists for current feature extractors, which limits recovery performance. In
this paper, we propose a novel feature extractor with deep neural network. It is based on
denoising autoencoders and improves previous autoencoders by adopting locality preserved
restriction. To impose this restriction, we introduce manifold regularization with hypergraph
learning. Hypergraph Laplacian matrix is constructed with patch alignment framework. In
this way, an automatic feature extractor for images is achieved. Experimental results on three
datasets show that the recovery error can be reduced by 10 % to 20 %, which demonstrates
the effectiveness of the proposed method.
Call. No.
EA 88
IndexDate
1397/10/30
Indexer
Dashagha
Title of Article
Three-dimensional image-based human pose recovery with hypergraph regularized autoencoders
RecordNumber
89
Issue/Number
8
Author/Authors