A Lie group approach to a neural system for three-dimensional interpretation of visual motion

Author

Tsao, Tien-Ren ; Shyu, Haw-Jye ; Libert, John M. ; Chen, Victor C.

Author_Institution

Vitro Corp., Silver Spring, MD, USA

Volume

2

Issue

1

fYear

1991

fDate

1/1/1991 12:00:00 AM

Firstpage

149

Lastpage

155

Abstract

A novel approach is presented to neural network computation of three-dimensional rigid motion from noisy two-dimensional image flow. It is shown that the process of 3-D interpretation of image flow can be viewed as a linear signal transform. The elementary signals of this linear transform are the 2-D vector fields of the six infinitesimal generators of the 3-D Euclidean group. This transform can be performed by a neural network. Results are also reported of neural network simulations for the 3-D interpretation of image flow and a comparison of the performance of this approach with that using conventional methods. Computer simulation results verify the Lie-group-based neural network approach to three-dimensional motion perception

Keywords

Lie groups; computer vision; neural nets; 2-D vector fields; 3-D Euclidean group; Lie group approach; linear signal transform; neural network; noisy two-dimensional image flow; rigid motion; three-dimensional interpretation; three-dimensional motion perception; visual motion; Biomedical optical imaging; Equations; Fluid flow measurement; Geometrical optics; Image motion analysis; Layout; Motion measurement; Neural networks; Optical noise; Optical sensors;

fLanguage

English

Journal_Title

Neural Networks, IEEE Transactions on

Publisher

ieee

ISSN

1045-9227

Type

jour

DOI

10.1109/72.80302

Filename

80302