Cumincad : CUMINCAD Papers : Search Results

CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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_id	ecaade2012_284
id	ecaade2012_284
authors	Ameijde, Jeroen van; Carlin, Brendon
year	2012
title	Digital Construction: Automated Design and Construction Experiments Using Customised On-Site Digital Devices
doi	https://doi.org/10.52842/conf.ecaade.2012.2.439
source	Achten, Henri; Pavlicek, Jiri; Hulin, Jaroslav; Matejovska, Dana (eds.), Digital Physicality - Proceedings of the 30th eCAADe Conference - Volume 2 / ISBN 978-9-4912070-3-7, Czech Technical University in Prague, Faculty of Architecture (Czech Republic) 12-14 September 2012, pp. 439-446
summary	This paper presents a currently on-going research trajectory, investigating integrated design and build work-fl ows using generative design strategies and custom built fabrication devices. The aim of the research, which is being developed through a series of experiments and workshops, is to explore scenarios in which these work-flows can produce emergent architectural structures which are highly adapted towards the intended performance within their specifi c context and site. The research has produced a number of installations and prototypical structures which test the practical and theoretical dimensions of the methodology explored. This paper will introduce intriguing new scenarios in which the architects’ role is focused on an indirect, advanced level of control of the process of design, allowing for a more open-ended method of negotiation between structure, users and environment.
wos	WOS:000330320600046
keywords	Generative design; digital fabrication; customised CNC devices; digital on-site construction
series	eCAADe
email
last changed	2022/06/07 07:54

_id	ascaad2012_005
id	ascaad2012_005
authors	Yu, Rongrong; Ning Gu and Michael Ostwald
year	2012
title	Using Situated FBS Ontology to Explore Designers' Patterns of Behavior in Parametric Environments
source	CAAD \| INNOVATION \| PRACTICE [6th International Conference Proceedings of the Arab Society for Computer Aided Architectural Design (ASCAAD 2012 / ISBN 978-99958-2-063-3], Manama (Kingdom of Bahrain), 21-23 February 2012, pp. 23-32
summary	Current literature suggests that there is limited empirical evidence supporting the understanding of designers’ behavior or processes in parametric design environments (PDEs). This on-going study explores designers’ patterns of behavior in PDEs and its relationship with design creativity. To achieve this, we introduce the situated function-behavior-structure (FBS) model to develop a customized coding scheme for future protocol studies. This FBS ontological model has been adapted to reflect the characteristics of parametric design. We propose to apply the results of the protocol analysis in identifying three levels of design behavior patterns: behavior patterns derived from design processes, behavior patterns derived from the whole design life-cycle and those derived from the two levels of parametric design activities (design knowledge based activities and rule algorithm based activities). Future experiments and subsequent protocol analysis will apply the coding scheme to identify these behavioral patterns. The relationship with design creativity will then be explored by mapping the identified behavior patterns against the design outcome assessment.
series	ASCAAD
type	normal paper
email
more	http://www.ascaad.org/conference/2012/papers/ascaad2012_005.pdf
last changed	2021/07/16 10:38

_id	ijac201210405
id	ijac201210405
authors	Braumann, Johannes; Sigrid-Brell Cokcan
year	2012
title	Digital and Physical Tools for Industrial Robots in Architecture: Robotic Interaction and Interfaces
source	International Journal of Architectural Computing vol. 10 - no. 4, 541-554
summary	The development of digital and physical tools is highly dependent on interfaces, which define the terms of interaction both between humans and machines, as well as between machines and other machines.This research explores how new, advanced human machine interfaces, that are built upon concepts established by entertainment electronics can enhance the interaction between users and complex, kinematic machines. Similarly, physical computing greatly innovates machine-machine interaction, as it allows designers to easily customize microcontroller boards and to embed them into complex systems, where they drive actuators and interact with other machines such as industrial robots.These approaches are especially relevant in the creative industry, where customized soft- and hardware is now enabling innovative and highly effective fabrication strategies that have the potential to compete with high-tech industry applications.
series	journal
last changed	2019/05/24 09:55

_id	ijac201210204
id	ijac201210204
authors	Davis, Felecia
year	2012
title	Sensing Touch Curtain: Soft Architecture and Augmented Communication
source	International Journal of Architectural Computing vol. 10 - no. 2, 219-236
summary	The Sensing Touch Curtain prototype demonstrates one type of sensing that can be woven into soft building components. It is a computational textile that senses the nearness of a person or people and registers absolute touch on fabric through capacitive sensing. Capacitive sensing measures position and distance between the textile and a target object by sending forth electric signals.The methods of construction, method of electronic weaving and ways to consider models for somatosensory textiles are discussed in the paper. The Sensing Touch project frames an expanded role for soft architecture enclosures.
series	journal
last changed	2019/05/24 09:55

_id	caadria2012_108
id	caadria2012_108
authors	Gerber, David and Shih-Hsin (Eve) Lin
year	2012
title	Designing-in performance through parameterisation, automation, and evolutionary algorithms: ‘H.D.S. BEAGLE 1.0’
doi	https://doi.org/10.52842/conf.caadria.2012.141
source	Proceedings of the 17th International Conference on Computer Aided Architectural Design Research in Asia / Chennai 25-28 April 2012, pp. 141–150
summary	Design is both a goal oriented and decision making activity. It is ill-defined by nature as designing includes weighing and understanding trade-offs amongst soft and hard objectives or in other words vague or imprecise and computationally definable criteria and goals. In this regard designers in most contemporary practices face a crisis of sorts. How do we achieve performance or sustainability under these large degrees of uncertainty or with limited design cycle times? Fundamentally design collaborations, teams of domain experts, are not typically given enough time to design-explore, generate design alternatives in order to find or evolve solution quality through expansive design search spaces. Given these limitations of time and the ever more complex criteria for ‘designing-in’ performance our research approach provides a computational strategy to expand the solution space as well as pre-sort and qualify candidate designs. The research presents a novel methodology and technology framework and an initial implementation that was developed to enhance the human activity of design exploration, domain integration, and further evolve design process for performance goals. The research does so through generating and optimising a highly correlated solution space in conjunction with a near simultaneous evaluation of design alternative fitness.
keywords	Parametric design; multi-disciplinary design optimisation (MDO); evolutionary algorithms; performative design process
series	CAADRIA
email
last changed	2022/06/07 07:51

_id	acadia12_67
id	acadia12_67
authors	Gerber, Dr. David Jason ; Lin, Shih-Hsin
year	2012
title	Synthesizing Design Performance: An Evolutionary Approach to Multidisciplinary Design Search
doi	https://doi.org/10.52842/conf.acadia.2012.067
source	ACADIA 12: Synthetic Digital Ecologies [Proceedings of the 32nd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-62407-267-3] San Francisco 18-21 October, 2012), pp. 67-75
summary	Design is a goal oriented decision-making activity. Design is ill defined and requiring of synthetic approaches to weighing and understanding tradeoffs amongst soft and hard objectives, and the imprecise and or computationally explicit criteria and goals. In this regard designers in contemporary practice face a crisis of sorts. How do we achieve performance under large degrees of uncertainty and limited design cycle time? How do we better design for integrating performance? Fundamentally design teams, are not typically given enough time nor the best tools to design explore, to generate design alternatives, and then evolve solution quality to search for best fit through expansive design solution spaces. Given the complex criteria for defining performance in architecture our research approach experiments upon an evolutionary and integrative computational strategy to expand the solution space of a design problem as well as pre-sort and qualify candidate designs. We present technology and methodology that supports rapid development of design problem solution spaces in which three design domains objectives have multi-directional impact on each other. The research describes the use of an evolutionary approach in which a genetic algorithm is used as a means to automate the design alternative population as well as to facilitate multidisciplinary design domain optimization. The paper provides a technical description of the prototype design, one that integrates associative parametric modeling with an energy use intensity evaluation and with a financial pro forma. The initial results of the research are presented and analyzed including impacts on design process; the impacts on design uncertainty and design cycle latency; and the affordances for ‘designing-in’ performance and managing project complexity. A summary discussion is developed which describes a future cloud implementation and the future extensions into other domains, scales, tectonic and system detail.
keywords	Parametric Design , Domain Integration , Design Methods , Multidisciplinary Design Optimization (MDO) , Evolutionary Algorithms , Design Decision Support , Generative Design
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:51

_id	caadria2012_045
id	caadria2012_045
authors	Khoo, C. K. and F. D. Salim
year	2012
title	A responsive morphing media skin
doi	https://doi.org/10.52842/conf.caadria.2012.517
source	Proceedings of the 17th International Conference on Computer Aided Architectural Design Research in Asia / Chennai 25-28 April 2012, pp. 517–526
summary	Existing media façades do not function as fenestration devices. They have been used mainly for visual communication and aesthetic purposes. This paper introduces a responsive morphing skin that can act as an active fenestration device as well as a media skin. We investigate new possibilities of using form-changing materials in designing responsive morphing skins that respond to environmental conditions and act as a communicative display. The design experiment that embodied this investigation, namely Blind, serves as a new layer of analogue media brise-soleil for existing space. It communicates the relationships between interior and exterior spaces visually and projects mutable imageries to the surrounding environment through sunlight. The design process of Blind simulates the responsive behaviour of the intended architectural skin by integrating physical computing and parametric design tools. This process includes the integration of soft apertures and architectural morphing skin to introduce a novel design method that enables an architectural skin to be a means of communication and fenestration. It responds to changing stimuli and intends to improve the spatial quality of existing environments through two types of transformations: morphological and patterned.
keywords	Media façades; elasticity; responsive architecture; formchanging materials; kinetic skin
series	CAADRIA
email
last changed	2022/06/07 07:52

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