Physics-Based Person Tracking Using Simplified Lower-Body Dynamics

Author

Brubaker, Marcus A. ; Fleet, David J. ; Hertzmann, Aaron

Author_Institution

Univ. of Toronto, Toronto

fYear

2007

fDate

17-22 June 2007

Firstpage

1

Lastpage

8

Abstract

We introduce a physics-based model for 3D person tracking. Based on a biomechanical characterization of lower-body dynamics, the model captures important physical properties of bipedal locomotion such as balance and ground contact, generalizes naturally to variations in style due to changes in speed, step-length, and mass, and avoids common problems such as footskate that arise with existing trackers. The model dynamics comprises a two degree-of-freedom representation of human locomotion with inelastic ground contact. A stochastic controller generates impulsive forces during the toe-off stage of walking and spring-like forces between the legs. A higher-dimensional kinematic observation model is then conditioned on the underlying dynamics. We use the model for tracking walking people from video, including examples with turning, occlusion, and varying gait.

Keywords

gait analysis; image motion analysis; pose estimation; biomechanical characterization; bipedal locomotion; higher-dimensional kinematic observation; impulsive forces; physics-based person tracking; simplified lower-body dynamics; Anthropomorphism; Force control; Humans; Image reconstruction; Kinematics; Legged locomotion; Stochastic processes; Tracking; Training data; Turning;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Vision and Pattern Recognition, 2007. CVPR '07. IEEE Conference on

Conference_Location

Minneapolis, MN

ISSN

1063-6919

Print_ISBN

1-4244-1179-3

Electronic_ISBN

1063-6919

Type

conf

DOI

10.1109/CVPR.2007.383342

Filename

4270340