— Tensegrity is a technology that can be applied to structures and its use can influence the construction time efficiency and project management in general. A significant drawback for a systematic application of tensegrity structures in the construction industry is the particularly complex geometry that engineers and architects have to generate in a two or three dimensional virtual or physical environment. This paper discusses a computer based utility that will facilitate the design professional to devise and construct a specific morphological variation of tensegrity structure systems. This utility applies to a recently developed building technology application which allows methods of forming a structure based on the rapid assembly of existing tensegrity units, permitting variability in the overall structure's form and dimensions. The development of the proposed utility was based on a methodology that identified and included parameters that can be associated to the schematic design and design development phases of a design project. Various methods of processing data, each of which may correspond to the needs of the designer, are enabled within the interface; domical, vaulted and slab configurations are the principal geometries addressed. Emphasis in the software application was placed on the development of a user friendly interactive environment that assists the generation and modification of the numerical data, and allows unobtrusive regenerations of alternate solutions. The developed utility – an automation tool – is to be used for decision making, enabling the user to iterate processes and make fine adjustments that will satisfy the agenda of parameters set by the project designers. The software application has been validated with a series of tests, briefly presented in the paper. Tensegrity structures for application in building design can be of various geometric forms and morphological types. Yet it can be maintained that Tensegrity structures in general are based on the principle of disjoint connections. This is characteristic of a structural system in which rigid members, such as bars, are not connected directly to each other, but to cables that usually form a continuous network. Although a few researchers and designers disregard this condition, based on the definitions given by Fuller [1] who first came up with the term, as well as of Pugh [2], Emmerich [3], Hanaor [4], and others who contributed to the research in the field, discontinuity of compressive components remains central to the tensegrity concept. A. Basic Tensegrity Morphologies Tensegrity structures can be arranged in a single …
[1]
Jinman Kim,et al.
A Parametric Approach to the Design of Vaulted Tensegrity Networks
,
2004
.
[2]
René Motro,et al.
Tensegrity Systems: The State of the Art
,
1992
.
[3]
Oren Vilnay.
Cable nets and tensegric shells : analysis and design applications
,
1990
.
[4]
R. Fuller,et al.
Synergetics: Explorations in the Geometry of Thinking
,
1975
.
[5]
Katherine A. Liapi.
A visualization method for the morphological exploration of tensegrity structures
,
2001,
Proceedings Fifth International Conference on Information Visualisation.
[6]
Katherine A. Liapi.
A novel portable and collapsible tensegrity unit for the rapid assembly of tensegrity networks
,
2002
.
[7]
Anthony Pugh,et al.
An Introduction to Tensegrity
,
1976
.
[8]
A. Hanaor.
Aspects of Design of Double-Layer Tensegrity Domes
,
1992
.
[9]
David Georges Emmerich.
Emmerich On Self-Tensioning Structures
,
1996
.