Explaining optical flow events with parameterized spatio-temporal models

Author

Black, Michael J.

Author_Institution

Xerox Palo Alto Res. Center, CA, USA

Volume

1

fYear

1999

fDate

1999

Abstract

A spatio-temporal representation for complex optical flow events is developed that generalizes traditional parameterized motion models (e.g. affine). These generative spatio-temporal models may be non-linear or stochastic and are event-specific in that they characterize a particular type of object motion (e.g. sitting or walking). Within a Bayesian framework we seek the appropriate model, phase, rate, spatial position, and scale to account for the image variation. The posterior distribution over this parameter space conditioned on image measurements is typically non-Gaussian. The distribution is represented using factored sampling and is predicted and updated over time using the condensation algorithm. The resulting framework automatically detects, localizes, and recognizes motion events

Keywords

Bayes methods; computer vision; image sequences; Bayesian framework; condensation algorithm; factored sampling; image measurements; image variation; motion events; object motion; optical flow events; parameterized motion models; parameterized spatio-temporal models; posterior distribution; spatial position; Bayesian methods; Character generation; Event detection; Extraterrestrial measurements; Image motion analysis; Image sampling; Legged locomotion; Motion detection; Nonlinear optics; Stochastic processes;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Vision and Pattern Recognition, 1999. IEEE Computer Society Conference on.

Conference_Location

Fort Collins, CO

ISSN

1063-6919

Print_ISBN

0-7695-0149-4

Type

conf

DOI

10.1109/CVPR.1999.786959

Filename

786959