Welcome to IEEE Xplore 2.0: Optimal control for real-time visualization and 3D rendering using neural networks

Cart | Sitemap | Help

Abstract


	BROWSE	SEARCH	IEEE XPLORE GUIDE	SUPPORT

View TOC

Optimal control for real-time visualization and 3D rendering using neural networks
You-Wei Yuan Han-Hui Zhan La-Mei Yan
Zhuzhou Inst. of Technol., Hunan, China;

This paper appears in: Machine Learning and Cybernetics, 2004. Proceedings of 2004 International Conference on
Publication Date: 26-29 Aug. 2004
Volume: 6, On page(s): 3460- 3463 vol.6
ISSN:
ISBN: 0-7803-8403-2
INSPEC Accession Number: 8254309
Current Version Published: 2005-01-24

Abstract
This article describes a novel approach to the real-time visualization and 3D rendering using neural networks. The present scheme is within the general framework of approximate dynamic programming where optimal/suboptimal control is achieved through learning to use pulse-coupled neural networks. The neural network model is proposed in this paper for optimal control with control constraints. The resulting 3D models can then be viewed from any angle and subsequently processed to integrately match them against 3D model data stored in a synthetic database. Our work is unique in that it supports both an online and off-tine visualization and rendering of a distributed system.

Index Terms
Available to subscribers and IEEE members.

References
Available to subscribers and IEEE members.

Citing Documents
Available to subscribers and IEEE members.

You are not logged in.

Guests may access Abstract records free of charge.