Christiansen, Asger Nyman^{3}; BĂ¦rentzen, Jakob Andreas^{3}

Affiliations:

^{1} Department of Informatics and Mathematical Modeling, Technical University of Denmark^{2} Image Analysis and Computer Graphics, Department of Informatics and Mathematical Modeling, Technical University of Denmark^{3} Department of Applied Mathematics and Computer Science, Technical University of Denmark

DOI:

10.1145/2448531.2448542

Abstract:

Methods for procedural modelling tend to be designed either for organic objects, which are described well by skeletal structures, or for man-made objects, which are described well by surface primitives. Procedural methods, which allow for modelling of both kinds of objects, are few and usually of greater complexity. Consequently, there is a need for a simple, general method which is capable of generating both types of objects. Generic Graph Grammar has been developed to address this need. The production rules consist of a small set of basic productions which are applied directly onto primitives in a directed cyclic graph. Furthermore, the basic productions are chosen such that Generic Graph Grammar seamlessly combines the capabilities of L-systems to imitate biological growth (to model trees, animals, etc.) and those of split grammars to design structured objects (chairs, houses, etc.). This results in a highly expressive grammar capable of generating a wide range of types of models. Models which consist of skeletal structures or surfaces or any combination of these. Besides generic modelling capabilities, the focus has also been on usability, especially userfriendliness and efficiency. Therefore several steps have been taken to simplify the workflow as well as to make the modelling scheme interactive. As proof of concept, a generic procedural modelling tool based on Generic Graph Grammar has been developed.

Type:

Conference paper

Language:

English

Published in:

Proceedings of the 28th Spring Conference on Computer Graphics, 2012, p. 85-92