Sequential Articulated Motion Reconstruction from a Monocular Image Sequence

Author:

Su Yong1,Feng Zhiyong1,Zhang Jianhai1,Peng Weilong1,Xing Meng1

Affiliation:

1. Tianjin University, Tianjin China

Abstract

In this article, we present a sequential approach for articulated motion estimation from a 2D skeleton sequence. This is a challenging task due to the complexity of human movements and the inherent depth ambiguities. The proposed approach models the human movement on a kinematic manifold with the tangent bundle, which is a natural geometrical representation of articulated motion. Combined with a second-order stochastic dynamic model based on the Markov hypothesis, we generalize the Extended Rauch Tung Striebel smoother to a Riemannian manifold to simulate the process of human movement. The human motor system might violate the Markov hypothesis when the human body is subject to external forces, and therefore a refinement stage is introduced to correct the estimation error. Specifically, the current estimation is refined in a feasible solution region consisting of a set of local estimations. This region is called a simplex, in which each element can be represented by a convex hull of all ingredients. We have proved that the refinement problem can be converted into a convex optimization problem with the simplicial constraint. Since the proposed formulation conforms to the principles of kinematic and spatio-temporal continuity of articulated motion, the reconstruction ambiguity can be alleviated essentially. The performance of the proposed algorithm is conducted on multiple synthetic sequences from the CMU and the HDM05 MoCap databases. The results show that, without requiring any training data, the proposed approach achieves greater accuracy over state-of-the-art baselines. Furthermore, the proposed approach outperforms two baselines on real sequences from the Human3.6m MoCap database.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Networks and Communications,Hardware and Architecture

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