The reality of virtual environments

In this article, the reality of virtual environment is described in detail. Highly detailed three-dimensional (3D) computer models and environments are commonly used in design, manufacturing, simulation, and entertainment. These virtual environments (VEs) are often successful at appearing realistic...

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Veröffentlicht in:	IEEE potentials 2005-08, Vol.24 (3), p.37-39
1. Verfasser:	Delannoy, J.-C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Angular velocity Computational modeling Deformable models Detection algorithms Elasticity Equations Shape Testing Vectors Virtual environment
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description	In this article, the reality of virtual environment is described in detail. Highly detailed three-dimensional (3D) computer models and environments are commonly used in design, manufacturing, simulation, and entertainment. These virtual environments (VEs) are often successful at appearing realistic when time remains still, but as the mobile objects are set into motion and interact with their surroundings, the movements often appear unnatural. In many prerendered VEs used for entertainment purposes, all of the object's motions must be handmade by 3-D animators in a process that is time consuming and lacks strict realism. In other VEs such as the first generation of 3-D video games, objects are modeled by their bounding space or by a sphere that surrounds all of the 3-D model's vertices. In these cases, the motions are often quite linear, and the collision response algorithms are quite simplistic; some even revert to stopping an object's motion when it collides with the environment. These techniques are much too minimal and greatly reduce the level of realism in VEs.
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subjects	Angular velocity Computational modeling Deformable models Detection algorithms Elasticity Equations Shape Testing Vectors Virtual environment
title	The reality of virtual environments
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