Wavelets for computer graphics: theory and applications
Wavelets for computer graphics: theory and applications
Hierarchical B-spline refinement
SIGGRAPH '88 Proceedings of the 15th annual conference on Computer graphics and interactive techniques
Constructive hypervolume modeling
Graphical Models - Volume modeling
Free-form deformations via sketching and manipulating scalar fields
SM '03 Proceedings of the eighth ACM symposium on Solid modeling and applications
Haptics-Based Dynamic Implicit Solid Modeling
IEEE Transactions on Visualization and Computer Graphics
Multiresolution heterogeneous solid modeling and visualization using trivariate simplex splines
SM '04 Proceedings of the ninth ACM symposium on Solid modeling and applications
Modelling function-based mixed-dimensional objects with attributes
Heterogeneous objects modelling and applications
Constructive hypervolume modeling using extended space mappings
Heterogeneous objects modelling and applications
Hi-index | 0.00 |
We present an approach to constructive modeling of FRep solids [2] defined by real-valued functions using 4D uniform rational cubic Bspline volumes as primitives. While the first three coordinates are used to represent the spatial component of the volume to be sculpted, the fourth coordinate is used as a scalar, which corresponds to a function value or a volume density. Thus, the shape can be manipulated by changing the scalar control coefficients of the spline volume. This modeling process is interactive as the isosurface can be polygonized and visualized in real time. The distance property we obtain, combined with the properties of the spline volumes, allow us to use the resulting 3D solid as a leaf of a constructive tree and to apply to it set-theoretic, blending and other operations defined using R-functions [2]. Additional deformations can be achieved by moving arbitrary points in the coordinate space and applying space mapping at any level of the constructive tree. The final constructive solid is defined by a single real-valued function evaluated by the tree traversing procedure.