A Paradigm for Interpreting Tractable Shape Grammars

Author:

Yue Kui1,Krishnamurti Ramesh2

Affiliation:

1. Microsoft Inc., Redmond, WA 98052, USA

2. School of Architecture, Carnegie Mellon University, Pittsburgh, PA 15213-3890, USA

Abstract

Shape grammars are, in general, intractable. Even amongst tractable shape grammars, their characteristics vary significantly. This paper describes a paradigm for practical general shape grammar interpreters, which aim to address computational difficulties posed by parameterization. The paradigm is expressed in terms of frameworks each comprising an underlying data structure, manipulation algorithms, and a metalanguage. The approach is illustrated through three exemplar frameworks.

Publisher

SAGE Publications

Subject

General Environmental Science,Geography, Planning and Development

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1. Shape meets Euclid: Integrating shape computation with ruler and compass procedures;Automation in Construction;2024-09

2. Semantic-driven Graph Transformations in Floor Plan Design;Computer-Aided Design;2023-05

3. Shape Grammar Approaches in Architecture;Advances in Systems Analysis, Software Engineering, and High Performance Computing;2020

4. Shapes, structures and shape grammar implementation;Computer-Aided Design;2019-06

5. A Graph Grammar Approach to the Design and Validation of Floor Plans;The Computer Journal;2019-02-12

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