Abstract
Individual recognition based on skeletal sequence is a challenging computer vision task with multiple important applications, such as public security, human–computer interaction, and surveillance. However, much of the existing work usually fails to provide any explicit quantitative differences between different individuals. In this paper, we propose a novel 3D spatio-temporal geometric feature representation of locomotion on Riemannian manifold, which explicitly reveals the intrinsic differences between individuals. To this end, we construct mean sequence by aligning related motion sequences on the Riemannian manifold. The differences in respect to this mean sequence are modeled as spatial state descriptors. Subsequently, a temporal hierarchy of covariance are imposed on the state descriptors, making it a higher-order statistical spatio-temporal feature representation, showing unique biometric characteristics for individuals. Finally, we introduce a kernel metric learning method to improve the classification accuracy. We evaluated our method on two public databases: the CMU Mocap database and the UPCV Gait database. Furthermore, we also constructed a new database for evaluating running and analyzing two major influence factors of walking. As a result, the proposed approach achieves promising results in all experiments.
Highlights
Individual identification from locomotion or action is a central problem of computer vision, which has attracted ever-increasing attention for its applications in biometrics and surveillance
We model the human poses on the Riemannian manifold, which is a unified representation of the skeleton
We focus on the problem of individual identification from the locomotion sequence
Summary
Individual identification from locomotion or action is a central problem of computer vision, which has attracted ever-increasing attention for its applications in biometrics and surveillance. This is due to the fact that (a) human locomotions recorded by cameras are non-contact, non-invasive, and non-cooperating, in contrast with the other biometric identification technologies, such as face, fingerprint, DNA, or iris recognition [1]. (b) several studies have proved that more than 20 different biological characteristics in human motion are unique for each individual [2]. In the well-known psychology test of point light displays, the human in motion could be rapidly perceived from points of light attached to body joints [3]. Locomotion-based individual identification has become flourishing in the computer vision community recently
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