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SVOBODA, L. NOVÁK, J. KURILLA, L. ZEMAN, J.
Original Title
A framework for integrated design of algorithmic architectural forms
Type
journal article in Web of Science
Language
English
Original Abstract
This paper presents a methodology and software tools for parametric design of complex architectural objects, called digital or algorithmic forms. In order to provide a flexible tool, the proposed design philosophy involves two open source utilities DONKEY and MIDAS written in Grasshopper algorithm editor and C++, respectively, that are to be linked with a scripting-based architectural modellers Rhinoceros, IntelliCAD and the open source Finite Element solver OOFEM. The emphasis is put on the structural response in order to provide architects with a consistent learning framework and an insight into structural behaviour of designed objects. As demonstrated on three case studies, the proposed modular solution is capable of handling objects of considerable structural complexity, thereby accelerating the process of finding procedural design parameters from orders of weeks to days or hours
Keywords
Algorithmic design; Conceptual phase; FE analysis; Monolithic versus modular solution; Procedural design parameters
Authors
SVOBODA, L.; NOVÁK, J.; KURILLA, L.; ZEMAN, J.
RIV year
2014
Released
15. 6. 2014
ISBN
0965-9978
Periodical
ADVANCES IN ENGINEERING SOFTWARE
Year of study
72
Number
State
United Kingdom of Great Britain and Northern Ireland
Pages from
109
Pages to
118
Pages count
10
BibTex
@article{BUT110071, author="Ladislav {Svoboda} and Jan {Novák} and Lukáš {Kurilla} and Jan {Zeman}", title="A framework for integrated design of algorithmic architectural forms", journal="ADVANCES IN ENGINEERING SOFTWARE", year="2014", volume="72", number="2014", pages="109--118", doi="10.1016/j.advengsoft.2013.05.006", issn="0965-9978" }