Article ID Journal Published Year Pages File Type
440905 Computer Aided Geometric Design 2011 13 Pages PDF
Abstract

We present an explicit polynomial solution method for surface generation. In this case the surface in question is characterized by some boundary configuration whereby the resulting surface conforms to a fourth order linear elliptic Partial Differential Equation, the Euler–Lagrange equation of a quadratic functional defined by a norm. In particular, the paper deals with surfaces generated as explicit Bézier polynomial solutions for the chosen Partial Differential Equation. To present the explicit solution methodologies adopted here we divide the Partial Differential Equations into two groups namely the orthogonal and the non-orthogonal cases. In order to demonstrate our methodology we discuss a series of examples which utilize the explicit solutions to generate smooth surfaces that interpolate a given boundary configuration. We compare the speed of our explicit solution scheme with the solution arising from directly solving the associated linear system.

► Explicit polynomial solution method for surface generation. ► Explicit Bézier polynomial solutions of fourth order linear elliptic Partial Differential Equations. ► Speed comparison of our explicit solution scheme with solution arising from directly solving the associated linear system.

Related Topics
Physical Sciences and Engineering Computer Science Computer Graphics and Computer-Aided Design
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