Variational design of curves and surfaces using multiresolution constraints

Multiresolution modeling provides a powerful tool for complex shape editing. To achieve a better control of deformations and a more intuitive interface, variational principles have been used in such multiresolution models. However, when handling multiresolution constraints, the existing methods ofte

We develop wavelet methods for the multiresolution representation of parametric curves and surfaces. To support the pression method, selected scaling coefficients of the surface representation, we construct a new family of compactly supyield a compact hierarchical surface representation using ported

This is the first of two papers describing curve and surface design using the two design systems developed by Dr. A.Armit. These systems are Multipatch and Multiobject, both of which are interactive 3D shape design systems. A practical example is described in detail.

Geometric design of shapes is a process of generating, analyzing and modifying free-form curves and surfaces that is driven by a variety of constraints typically related to the concrete area of design under consideration. Nevertheless, these constraints can be generically categorized as: † level, to