Introduction to Solid Modeling
Introduction to Solid Modeling
A method for generating volumetric features from surface features
SMA '91 Proceedings of the first ACM symposium on Solid modeling foundations and CAD/CAM applications
Machine interpretation of CAD data for manufacturing applications
ACM Computing Surveys (CSUR)
A graph-based framework for feature recognition
Proceedings of the sixth ACM symposium on Solid modeling and applications
Advances in Feature-Based Manufacturing
Advances in Feature-Based Manufacturing
Recognizing Shape Features in Solid Models
IEEE Computer Graphics and Applications
Removal of blends from boundary representation models
Proceedings of the seventh ACM symposium on Solid modeling and applications
A small feature suppression/unsuppression system for preparing B-rep models for analysis
Proceedings of the 2005 ACM symposium on Solid and physical modeling
An integrated approach to realize multi-resolution of B-rep model
Proceedings of the 2005 ACM symposium on Solid and physical modeling
Making the most of using depth reasoning to label line drawings of engineering objects
SM '04 Proceedings of the ninth ACM symposium on Solid modeling and applications
Adaptation of CAD model topology for finite element analysis
Computer-Aided Design
Frontal geometry from sketches of engineering objects: is line labelling necessary?
Computer-Aided Design
Technical Section: An approach to B-rep model simplification based on region suppression
Computers and Graphics
Feature suppression based CAD mesh model simplification
Computer-Aided Design
Constructing regularity feature trees for solid models
GMP'06 Proceedings of the 4th international conference on Geometric Modeling and Processing
Hi-index | 0.01 |
This paper describes a systematic algorithm for reconstructing the feature volume from a set of faces in a solid model. This algorithm serves a dual purpose. Firstly, the algorithm generates the feature volume by extending or contracting the neighboring faces of the set of faces. Secondly, the algorithm may also be used to remove (or suppress) the face-set from the model. The algorithm uses a divide-and-conquer strategy and geometric cues to identify the correct topology. It robustly handles a wide class of feature volumes with complex topology and geometry. A simplified version of the algorithm has also been presented to handle volumes resulting from 2.5D features.