Construction of fractal objects with iterated function systems-Reference-Cited by-同舟云学术

Construction of fractal objects with iterated function systems

Published:1985-07 Issue:3 Volume:19 Page:271-278
ISSN:0097-8930
Container-title:ACM SIGGRAPH Computer Graphics
language:en
Short-container-title:SIGGRAPH Comput. Graph.

Author:

Demko Stephen¹,Hodges Laurie²,Naylor Bruce²

Affiliation:

1. School of Mathematics, Georgia Institute of Technology, Atlanta, Georgia

2. School of Information and Computer Science, Georgia Institute of Technology, Atlanta, Georgia

Abstract

In computer graphics, geometric modeling of complex objects is a difficult process. An important class of complex objects arise from natural phenomena: trees, plants, clouds, mountains, etc. Researchers are at present investigating a variety of techniques for extending modeling capabilities to include these as well as other classes. One mathematical concept that appears to have significant potential for this is fractals. Much interest currently exists in the general scientific community in using fractals as a model of complex natural phenomena. However, only a few methods for generating fractal sets are known. We have been involved in the development of a new approach to computing fractals. Any set of linear maps (affine transformations) and an associated set of probabilities determines an Iterated Function System (IFS). Each IFS has a unique "attractor" which is typically a fractal set (object). Specification of only a few maps can produce very complicated objects. Design of fractal objects is made relatively simple and intuitive by the discovery of an important mathematical property relating the fractal sets to the IFS. The method also provides the possibility of solving the inverse problem. given the geometry of an object, determine an IFS that will (approximately) generate that geometry. This paper presents the application of the theory of IFS to geometric modeling.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Graphics and Computer-Aided Design,General Computer Science

Link

https://dl.acm.org/doi/pdf/10.1145/325165.325245

Reference19 articles.

1. Botanical Tree Image Generation

2. Harrington, "A Mandelbrot Set for Pairs of Linear Maps" to appear;Barnsley Michael F;Physica,1985

3. Barnsley Michael F. and Stephen Demko "Iterated Function Systems and the Global Construction of Fractals" to appear in The Proceedings of the Royal Society preprint available School of Mathematics Georgia Institute of Technology Atlanta Georgia 30332. Barnsley Michael F. and Stephen Demko "Iterated Function Systems and the Global Construction of Fractals" to appear in The Proceedings of the Royal Society preprint available School of Mathematics Georgia Institute of Technology Atlanta Georgia 30332.

4. Barnsley Michael F. "Fraetal Interpolation" preprint available School of Mathematics Georgia Institute of Technology Atlanta Georgia 30332. Barnsley Michael F. "Fraetal Interpolation" preprint available School of Mathematics Georgia Institute of Technology Atlanta Georgia 30332.

Cited by 87 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Into the Portal: Directable Fractal Self-Similarity;Special Interest Group on Computer Graphics and Interactive Techniques Conference Conference Papers '24;2024-07-13

2. Fabrication and Testing of U-Slot and U-I Slot Microstrip Patch Antenna Using Rogers RO4350 Substrate for Wireless Applications;Lecture Notes in Electrical Engineering;2023-12-16

3. Feature-based modeling for variable fractal geometry design integrated into CAD system;Advanced Engineering Informatics;2023-08

4. Automatic mandala pattern design and generation based on COOM framework;Journal of Computer Languages;2022-10

5. An extensive survey on fractal structures using iterated function system in patch antennas;International Journal of Communication Systems;2021-08-04