Gaussian Process Dynamical Models for Human Motion

Author

Wang, Jack M. ; Fleet, David J. ; Hertzmann, Aaron

Author_Institution

Univ. of Toronto, Toronto

Volume

30

Issue

2

fYear

2008

Firstpage

283

Lastpage

298

Abstract

We introduce Gaussian process dynamical models (GPDMs) for nonlinear time series analysis, with applications to learning models of human pose and motion from high-dimensional motion capture data. A GPDM is a latent variable model. It comprises a low-dimensional latent space with associated dynamics, as well as a map from the latent space to an observation space. We marginalize out the model parameters in closed form by using Gaussian process priors for both the dynamical and the observation mappings. This results in a nonparametric model for dynamical systems that accounts for uncertainty in the model. We demonstrate the approach and compare four learning algorithms on human motion capture data, in which each pose is 50-dimensional. Despite the use of small data sets, the GPDM learns an effective representation of the nonlinear dynamics in these spaces.

Keywords

Gaussian processes; learning (artificial intelligence); motion estimation; time series; Gaussian process dynamical model; human motion capture data; learning model; low-dimensional latent space; nonlinear time series analysis; animation; machine learning; motion; stochastic processes; time series analysis; tracking; Algorithms; Artificial Intelligence; Biomedical Engineering; Computer Simulation; Gait; Humans; Linear Models; Models, Biological; Movement; Nonlinear Dynamics; Video Recording; Walking;

fLanguage

English

Journal_Title

Pattern Analysis and Machine Intelligence, IEEE Transactions on

Publisher

ieee

ISSN

0162-8828

Type

jour

DOI

10.1109/TPAMI.2007.1167

Filename

4359316