Title :
Partial Differential Equations for Function Based Geometry Modelling within Visual Cyberworlds
Author :
Ugail, Hassan ; Sourin, Alexei
Author_Institution :
Sch. of Inf., Univ. of Bradford, Bradford
Abstract :
We propose the use of partial differential equations (PDEs) for shape modelling within visual cyberworlds. PDEs, especially those that are elliptic in nature, enable surface modelling to be defined as boundary-value problems. Here we show how the PDE based on the Biharmonic equation subject to suitable boundary conditions can be used for shape modelling within visual cyberworlds. We discuss an analytic solution formulation for the Biharmonic equation which allows us to define a function based geometry whereby the resulting geometry can be visualised efficiently at arbitrary levels of shape resolutions. In particular, we discuss how function based PDE surfaces can be readily integrated within VRML and X3D environments.
Keywords :
Internet; XML; boundary-value problems; computational geometry; data visualisation; elliptic equations; partial differential equations; solid modelling; surface fitting; virtual reality languages; 3D Web visualisation; Biharmonic equation; VRML; Virtual Reality Modeling Language; X3D; analytic solution formulation; boundary condition; boundary-value problem; elliptic equation; geometry modelling; partial differential equation; shape modelling; shape resolution; surface modelling; visual cyberworld; Databases; Geometry; Layout; Network servers; Partial differential equations; Rendering (computer graphics); Search engines; Shape; Solid modeling; Visualization; Function based Geometry; PDE surfaces; Visual Cyberworlds;
Conference_Titel :
Cyberworlds, 2008 International Conference on
Conference_Location :
Hangzhou
Print_ISBN :
978-0-7695-3381-0
