The ability to acknowledge external inputs in order to make them part of its organizational structure is one of the aspects of “non-linear” architecture that today is perhaps more peculiar to a new design trend, whose main features lead to the definition of complex and changing space systems. This implies the adoption of design tools and techniques capable of dynamicity. Moreover, thinking in terms of architectural competence and behaviour, in spite of its own image, means to adopt in design the logic of coding and computational. This paper discusses the background of responsiveness, its relation to architecture dealing with parameter’s value for instability and dynamism, and explain computational strategies and design methods of a hands-on application based on a simple origami structure, which is also finalizing to design an architectural template for both testing and designing kinematic architectural components, as the main output of the research itself.
Architectural Templates: a hands-on approach to responsive morphologies
Nebuloni Attilio;Vignati Giorgio
2018-01-01
Abstract
The ability to acknowledge external inputs in order to make them part of its organizational structure is one of the aspects of “non-linear” architecture that today is perhaps more peculiar to a new design trend, whose main features lead to the definition of complex and changing space systems. This implies the adoption of design tools and techniques capable of dynamicity. Moreover, thinking in terms of architectural competence and behaviour, in spite of its own image, means to adopt in design the logic of coding and computational. This paper discusses the background of responsiveness, its relation to architecture dealing with parameter’s value for instability and dynamism, and explain computational strategies and design methods of a hands-on application based on a simple origami structure, which is also finalizing to design an architectural template for both testing and designing kinematic architectural components, as the main output of the research itself.File | Dimensione | Formato | |
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articolo_Springer - Computational_Morphologies.pdf
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