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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Reformat results as: short short into frame detailed detailed into frame

_id	acadia12_295
id	acadia12_295
authors	Dierichs, Karola ; Menges, Achim
year	2012
title	Functionally Graded Aggregate Structures: Digital Additive Manufacturing With Designed Granulates
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. 295-304
doi	https://doi.org/10.52842/conf.acadia.2012.295
summary	In recent years, loose granulates have come to be investigated as architectural systems in their own right. They are defined as large numbers of elements in loose contact, which continuously reconfigure into variant stable states. In nature they are observed in systems like sand or snow. In architecture, however, they were previously known only from rare vernacular examples and geoengineering projects, and are only now being researched for their innate material potentials. Their relevance for architecture lies in being entirely reconfigurable and in allowing for structures that are functionally graded on a macro level. Hence they are a very relevant yet unexplored field within architectural design. The research presented here is focused on the potential of working with designed granulates, which are aggregates where the individual particles are designed to accomplish a specific architectural effect. Combining these with the use of a computer-controlled emitter-head, the process of pouring these aggregate structures can function as an alternative form of 3D printing or digital additive manufacturing, which allows both for instant solidification, consequent reconfiguration, and graded material properties. In its first part, the paper introduces the field of research into aggregate architectures. In its second part, the focus is laid on designed aggregates, and an analytical design tool for the individual grains is discussed. The third part presents research conducted into the process of additive manufacturing with designed granulates. To conclude, further areas of investigation are outlined especially with regard to the development of the additive manufacturing of functionally graded architectural structures. The potentials of the methodologies developed in this process are shown through the fabrication of a full-scale installation. By integrating material, fabrication, and design constraints into a streamlined computational methodology, the process also serves as a model for a more intuitive production workflow, expanding the understanding of glass as a material with wide-ranging possibilities for a more performative architecture.
keywords	Aggregate Architectures , Digital Additive Manufacturing , Functionally Graded Materials
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:55

_id	acadia12_97
id	acadia12_97
authors	Lilley, Brian ; Hudson, Roland ; Plucknett, Kevin ; Macdonald, Rory ; Cheng, Nancy Yen-Wen ; Nielsen, Stig Anton ; Nouska, Olympia ; Grinbergs, Monika ; Andematten, Stephen ; Baumgardner, Kyle ; Blackman, Clayton ; Kennedy, Matthew ; Chatinthu, Monthira ; Tianchen, Dai ; Sheng-Fu, Chen
year	2012
title	Ceramic Perspiration: Multi-Scalar Development of Ceramic Material
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. 97-108
doi	https://doi.org/10.52842/conf.acadia.2012.097
summary	Ceramic building material is a useful passive modulator of the environment. The subject area is based on traditional cultural and material knowledge of clay properties: from amphora to rammed earth building; and ranges to present uses: from desiccants and space shuttle tile patterns to bio-ceramics. The primary consideration is to control material density and porosity in a tile component, in response to specific environmental conditions. This depends on a number of key physical principles: the ability of the material to absorb thermal energy, the ability to absorb and then ‘wick’ moisture within the pore structure, and the decrement factor or ‘time lag’ of the effect. The interplay between these properties point to the importance of directionality in the porous microstructure, at the boundary layer. Material characteristics have been investigated in the laboratory at a micron scale and in the ceramics workshop at full scale, with some interplay between the two. Recent work done on monitoring has led to the development of software tools that allow feedback (approaching real time)- a visual representation of the dynamic thermal and hygrometric properties involved.
keywords	Synthetic tectonics , composite materials , smart assemblies , emerging material processes , Responsive environments , sensing , real-time computation , feedback loops , Information Visualization
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:59

_id	acadia12_79
id	acadia12_79
authors	Nicholas, Paul ; Tamke, Martin ; Thomsen, Matte Ramsgard ; Jungjohann, Hauke ; Markov, Ivan
year	2012
title	Graded Territories: Towards the Design, Specification and Simulation of Materially Graded Bending Active Structures"
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. 79-86
doi	https://doi.org/10.52842/conf.acadia.2012.079
summary	The ability to make materials with bespoke behavior affords new perspectives on incorporating material properties within the design process not available through natural materials. This paper reports the design and assembly of two bending-active, fibre-reinforced composite structures. Within these structures, the property of bending is activated and varied through bespoke material means so as to match a desired form. Within the architectural design process, formal control depends upon design approaches for material specification and simulation that consider behavior at the level of the material element as well as the structure. We describe an evolving approach to material specification and simulation, and highlight the digital and material considerations that frame the process.
keywords	graded materials , composite materials , bending-active structures , material properties , material behaviour , simulation , material specification , performance-based design
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:58

_id	ecaade2012_93
id	ecaade2012_93
authors	Nicholas, Paul; Tamke, Martin
year	2012
title	Composite Territories: Engaging a Bespoke Material Practice in Digitally Designed Materials
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. 691-699
doi	https://doi.org/10.52842/conf.ecaade.2012.2.691
wos	WOS:000330320600074
summary	Today, material performance is regarded as one of the richest sources of innovation. Accordingly, architecture is shifting to practices by which the computational generation of form is directly driven by material characteristics. At the same time, there is a growing technological means for the varied composition of material, an extension of the digital chain that foregrounds a new need to engage materials at multiple scales within the design process. Recognising that the process of making materials affords perspectives not available with found materials, this paper reports the design and assembly of the fi bre reinforced composite structure Composite Territories, in which the property of bending is activated and varied so as to match solely through material means a desired form. This case study demonstrates how one might extend the geometric model so that it is able to engage and reconcile physical parameters that occur at different scales.
keywords	Composites; Material properties; Multi-scale
series	eCAADe
email
last changed	2022/06/07 07:58

_id	acadia20_58
id	acadia20_58
authors	Yogiaman, Christine; P. Pambudi, Christyasto; Kumar Jayashankar, Dhileep; Chia, Peizhi; Quek, Yuhan; Tracy, Kenneth
year	2020
title	Knitted Bio-Material Assembly
source	ACADIA 2020: Distributed Proximities / Volume I: Technical Papers [Proceedings of the 40th Annual Conference of the Association of Computer Aided Design in Architecture (ACADIA) ISBN 978-0-578-95213-0]. Online and Global. 24-30 October 2020. edited by B. Slocum, V. Ago, S. Doyle, A. Marcus, M. Yablonina, and M. del Campo. 58-65.
doi	https://doi.org/10.52842/conf.acadia.2020.1.058
summary	Bio-fabrication of materials opens up novel opportunities for designers to innovate the functional possibilities of the designed output through variations in fabrication processes. Literature has seen an increased interest in this emerging material design practice that has recently been defined as “growing design” (Myers 2012). Our research work expands on the definition of this emerging material design practice to engage digital design and fabrication procedures in the intersection of biology, craft, and design. The aim is to cultivate a new material type—knitted textile mycelium composite that has the capability to augment final material composite properties and provide formal freedom to designers. 3D CNC knitting enables the fabrication of knitted textile that has control over the specificity of each knit loop, opening up design possibilities to grade functional differentiation when the knitted textile is used as a sacrificial mold for the cultivation of mycelium composite. The research presents various design-to-fabrication workflows that facilitate working with the indeterminate nature of 3D-knitted membrane and the dynamic nature of cultivating mycelium composite growth. Two architecture-scale prototype units were fabricated and cultivated, demonstrating the range of design freedom for this new material type.
series	ACADIA
type	paper
email
last changed	2023/10/22 12:06

_id	ecaade2012_000
id	ecaade2012_000
authors	Achten, Henri; Pavlicek, Jiri; Hulin, Jaroslav; Matejdan, Dana (eds.)
year	2012
title	Digital Physicality
source	Proceedings of the 30th International Conference on Education and research in Computer Aided Architectural Design in Europe - Volume 1 [ISBN 978-9-4912070-2-0], Czech Technical University in Prague, Faculty of Architecture (Czech Republic) 12-14 September 2012, 762 p.
doi	https://doi.org/10.52842/conf.ecaade.2012.1
summary	Digital Physicality is the first volume of the conference proceedings of the 30th eCAADe conference, held from 12-14 september 2012 in Prague at the Faculty of Architecture of Czech Technical University in Prague. The companion volume is called Physical Digitality. Together, both volumes contain 154 papers that were submitted to this conference.Physicality means that digital models increasingly incorporate information and knowledge of the world. This extends beyond material and component databases of building materials, but involves time, construction knowledge, material properties, space logic, people behaviour, and so on. Digital models therefore, are as much about our understanding of the world as they are about design support. Physical is no longer the opposite part of digital models. Models and reality are partly digital and partly physical. The implication of this condition is not clear however, and it is necessary to investigate its potential. New strategies are necessary that acknowledge the synergetic qualities of the physical and the digital. This is not limited to our designs but it also influences the process, methods, and what or how we teach.The subdivision of papers in these volumes follow the distinction made in the conference theme. The papers in Digital Physicality have their orientation mainly in the digital realm, and reach towards the physical part. It has to be granted that this distinction is rather crude, because working from two extremes (digital versus physical) tends to ignore the arguably most interesting middle ground.
keywords	Digital physicality; physical digitality
series	eCAADe
email
last changed	2022/06/07 07:49

_id	caadria2012_132
id	caadria2012_132
authors	Baerlecken, Daniel and David Duncan
year	2012
title	Junk: Design build studio
source	Proceedings of the 17th International Conference on Computer Aided Architectural Design Research in Asia / Chennai 25-28 April 2012, pp. 305–314
doi	https://doi.org/10.52842/conf.caadria.2012.305
summary	The paper presents a design build studio that investigates the role of waste as building material and develops a proposal for an installation that uses CAAD and CAM tools in combination with traditional fabrication tools to design and build an installation out of waste materials. The paper describes the concept development and the construction process through the help of computational tools. Recycling is in the process of becoming an integral part of sustainable architecture. However, there are very few digital design projects that use re-used or recycled materials in combination with their architectural and aesthetic qualities and potentials. The potential of such an investigation is explored within a design build studio. What is junk? What is a building material? What are the aesthetics of junk?
keywords	Education in CAAD; digital fabrication and construction; practice-based and interdisciplinary CAAD; parametric modelling
series	CAADRIA
email
last changed	2022/06/07 07:54

_id	ecaade2012_280
id	ecaade2012_280
authors	Baerlecken, Daniel; Reitz, Judith; Duncan, David
year	2012
title	Junk: Reuse of Waste Materials
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. 143-150
doi	https://doi.org/10.52842/conf.ecaade.2012.2.143
wos	WOS:000330320600014
summary	The paper presents a series of design build studio that investigate the role of waste as building material. The series develops proposals for constructions that use CAAD and CAM tools in combination with traditional fabrication tools to design and build an installation out of waste materials. The fi rst construction uses waste to create two installations that questions human consumption, The second project is a future project, that intends the use of waste as an actual building material. Recycling is in the process of becoming an integral part of sustainable architecture. However, there are very few digital design projects that use re-used or recycled materials in combination with their architectural and aesthetic qualities and potentials. The potential of such an investigation is explored within these design build studios. What is junk? What is a building material? What are the aesthetics of junk?
keywords	Education in CAAD; digital fabrication and construction; practice-based and interdisciplinary CAAD; parametric modeling
series	eCAADe
email
last changed	2022/06/07 07:54

_id	sigradi2012_326
id	sigradi2012_326
authors	Barros Filho, Mauro Normando Macêdo
year	2012
title	Simulando a dinâmica da segregação urbana: dos autômatos celulares aos modelos baseados em agentes [Simulating urban segregation dynamics: from cellular automata to agent based models]
source	SIGraDi 2012 [Proceedings of the 16th Iberoamerican Congress of Digital Graphics] Brasil - Fortaleza 13-16 November 2012, pp. 453-457
summary	As a consequence of the emergence of models based on the notions of disequilibrium and uncertainty, cities have being seen as intrinsically complex nonlinear systems subject to sociospatial changes that occur, simutaneously, in many scales. The present paper analyzes three models to simulate urban segregation dynamics. Schelling’s model shows how can emerge unexpected highly segregated global patterns from local preferences to live close to each other. Epstein and Axtell’s model reveals its pedagogic role through the manipulation of specific parameters. Portugali’s model emphasizes the cognition and learning capabilities of agents to recognize patterns and change their behaviour accordingly.
keywords	Segregação Urbana; Modelos de Simulação; Autômatos Celulares; Modelos Baseados em Agentes
series	SIGRADI
email
last changed	2016/03/10 09:47

_id	acadia12_199
id	acadia12_199
authors	Beorkrem, Chris ; Corte, Dan
year	2012
title	Zero-Waste, Flat-Packed, Tri-Chord Truss: Continued Investigations of Structural Expression in Parametric Design"
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. 199-208
doi	https://doi.org/10.52842/conf.acadia.2012.199
summary	The direct and rapid connections between scripting, modeling and prototyping allow for investigations of computation in fabrication. The manipulation of planar materials with two-dimensional CNC cuts can easily create complex and varied forms, volumes, and surfaces. However, the bulk of research on folding using CNC fabrication tools is focused upon surfaces, self-supporting walls and shell structures, which do not integrate well into more conventional building construction models. This paper attempts to explain the potential for using folding methodologies to develop structural members through a design-build process. Conventional building practice consists of the assembly of off-the-shelf parts. Many times, the plinth, skeleton, and skin are independently designed and fabricated, integrating multiple industries. Using this method of construction as an operative status quo, this investigation focused on a single structural component: the truss. Using folding methodologies and sheet steel to create a truss, this design investigation employed a recyclable and prolific building material to redefine the fabrication of a conventional structural member. The potential for using digital design and two-dimensional CNC fabrication tools in the design of a foldable truss from sheet steel is viable in the creation of a flat-packed, minimal waste structural member that can adapt to a variety of aesthetic and structural conditions. Applying new methods to a component of the conventional ‘kit of parts’ allowed for a novel investigation that recombines zero waste goals, flat-packing potential, structural expression and computational processes. This paper will expand (greatly) upon previous research into bi-chord truss designs, developing a tri-chord truss, which is parametrically linked to its structural moment diagram. The cross section of each truss is formed based on the loading condition for each beam. This truss design has been developed through a thorough series of analytical models and tests performed digitally, to scale and in full scale. The tri-chord truss is capable of resisting rotational failures well beyond the capacity of the bi-chord designs previously developed. The results are complex, and elegant expressions of structural logics embodied in a tightly constrained functional design.
keywords	Parametric Design , Structural Expression , Material constraints
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	ecaade2012_5
id	ecaade2012_5
authors	Biloria, Nimish; Chang, Jia-Rey
year	2012
title	HyperCell: A Bio-Inspired Information Design Framework for Real-Time Adaptive Spatial Components
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. 573-581
doi	https://doi.org/10.52842/conf.ecaade.2012.2.573
wos	WOS:000330320600061
summary	Contemporary explorations within the evolutionary computational domain have been heavily instrumental in exploring biological processes of adaptation, growth and mutation. On the other hand a plethora of designers owing to the increasing sophistication in computer aided design software are equally enthused by the formal aspects of biological organisms and are thus meticulously involved in form driven design developments. This focus on top-down appearance and surface condition based design development under the banner of organic architecture in essence contributes to the growing misuse of bio-inspired design and the inherent meaning associated with the terminology. HyperCell, a bio-inspired information design framework for real-time adaptive spatial components, is an ongoing research, at Hyperbody, TU Delft, which focuses on extrapolating bottom-up generative design and real-time interaction based adaptive spatial re-use logics by understanding processes of adaptation, multi-performance and self sustenance in natural systems. Evolutionary developmental biology is considered as a theoretical basis for this research.
keywords	Adaptation; Swarms; Evo-Devo; Simulation: Cellular component
series	eCAADe
email
last changed	2022/06/07 07:54

_id	acadia12_511
id	acadia12_511
authors	Borowski, Darrick ; Poulimeni, Nikoletta ; Janssen, Jeroen
year	2012
title	Edible Infrastructures: Emergent Organizational Patterns for the Productive City
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. 511-526
doi	https://doi.org/10.52842/conf.acadia.2012.511
summary	Edible Infrastructures is an investigation into a projective mode of urbanism which considers food as an integral part of a city's metabolic infrastructure. Working with algorithms as design tools, we explore the generative potential of such a system to create an urban ecology that: provides for its residents via local, multi-scalar, distributed food production, reconnects urbanites with their food sources, and de-couples food costs from fossil fuels by limiting transportation at all levels, from source to table. The research is conducted through the building up of a sequence of algorithms, beginning with the ‘Settlement Simulation’, which couples consumers to productive surface area within a cellular automata type computational model. Topological analysis informs generative operations, as each stage builds on the output of the last. In this way we explore the hierarchical components for a new Productive City, including: the structure and programming of the urban circulatory network, an emergent urban morphology based around productive urban blocks, and opportunities for new architectural typologies. The resulting prototypical Productive City questions the underlying mechanisms that shape modern urban space and demonstrates the architectural potential of mathematical modeling and simulation in addressing complex urban spatial and programmatic challenges.
keywords	Urban Agriculture , Urban Ecologies and Food Systems , Productive Cities , Urban Metabolism , Computational Modeling and Simulation , Algorithmic/ Procedural Design Methodologies , Emergent Organization , Self-Organizing Systems
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	sigradi2012_291
id	sigradi2012_291
authors	Braida, Frederico; Marques, Aline Calazans; Pedroso, Emmanuel Sá Resende; Lima, Fernando Tadeu de Araújo
year	2012
title	O papel das impressoras 3D nas diversas etapas do projeto [O papel das impressoras 3D nas diversas etapas do projeto The 3D printer paper at various stages of project]
source	SIGraDi 2012 [Proceedings of the 16th Iberoamerican Congress of Digital Graphics] Brasil - Fortaleza 13-16 November 2012, pp. 580-583
summary	This article aims to address the use of 3D printers in the stages of design, development and final presentation in projects of architecture and urbanism. To evaluate the performance of 3D printers, we emphasize in each of these stages of the project, the representational demands and cognitive processes involved as well as analytical categories taken as cost, running time, accuracy and level finish, the representation of materials, scale and size of three-dimensional models and possibilities for intervention in the models themselves.
keywords	Impressoras 3D; Prototipagem rápida; Projeto; Fabricação Digital; Modelagem tridimensional
series	SIGRADI
email
last changed	2016/03/10 09:47

_id	ecaade2012_303
id	ecaade2012_303
authors	Cheng, Nancy Yen-wen
year	2012
title	Shading With Folded Surfaces: Designing With Material, Visual and Digital Considerations
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. 613-620
doi	https://doi.org/10.52842/conf.ecaade.2012.2.613
wos	WOS:000330320600066
summary	This paper analyses a hybrid design approach; how physical and digital processes can inform each other in a multivalent design cycle. It describes the design of origami-inspired window shades, part of the Shaping Light project that explores how adjustable surface structures can modulate light levels and heat gain in response to the changing seasons. The screen uses sloped surfaces to diffuse light and create apertures that close when the screen is stretched and open when the screen is folded. The project complements digital methods for pattern proportioning and kinetic simulation with manual manipulation to generate 3D folding motifs and refi ne assemblies. Physical prototypes can shape digital refi nement by revealing visual and structural characteristics of materials, along with joint and production considerations. Physical models for simulating sunny and cloudy daylighting conditions provide a direct connection between spatial confi guration and visual effects. The paper concludes with guidelines for material-based digital-analog creation.
keywords	Architectural design process; digital fabrication; shading devices; origami
series	eCAADe
email
last changed	2022/06/07 07:55

_id	sigradi2012_304
id	sigradi2012_304
authors	Chiarella, Mauro; Alvarado, Rodrigo Garcia
year	2012
title	Composiciones Plegadas. Propiedades espaciales y materiales (envolventes y componentes) [Folded Compositions. Spatial Properties and Materials (enclosures and components)]
source	SIGraDi 2012 [Proceedings of the 16th Iberoamerican Congress of Digital Graphics] Brasil - Fortaleza 13-16 November 2012, pp. 500-504
summary	The folded compositions in architecture enable creatively rethink the methods and instruments of ideation and manufacturing. Displace conventional architectural graphic (Descriptive Geometry and Perspective) of autonomy and historical determinism that has characterized (obsessive stylistic control of the design object and spatial structure inherited under the canons of classical geometry). The material expression of these settings provides an important link between: the formal conceptualization, the digital geometric operation, its manufacturing and responsive review, similar to the design process used. At the same time reveals limitations of scale, materiality and design limitations, which condition the models implemented.
keywords	Compositions Fold. Parametric Design. Digital Fabrication
series	SIGRADI
email
last changed	2016/03/10 09:48

_id	acadia12_109
id	acadia12_109
authors	Comodromos, Demetrios A ; Ellinger, Jefferson
year	2012
title	Material Intensities
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. 109-113
doi	https://doi.org/10.52842/conf.acadia.2012.109
summary	As host organizers of the Smartgeometry 2012 Conference, professors of Architecture, and as principals in design firms, our work aims to use as a productive resistance the notion of Material Intensity described below as both a foil and measure to current concepts of simulation and intensive modeling in architectural computation. The holding of SG 2012 aimed to stage this resistance in the form of workshop, round-table discussions, lectures and symposia, with the outcome attempting to define a new synthetic notion of material intensities in modes of architectural production. This paper aims to form the basis of a continued exploration and development of this work. In summary we focused on: 1-Intensive thinking as derived from the material sciences as an actual and philosophical framework that emphasizes qualitative attributes, which is likened to behavior, simulation, and dynamic modeling. Extensive attributes lead to analytical, representational and static modeling. 2-Material practices can also be formed and as a result of this method of thinking. As demonstrated by the glasswork of Evan Douglis, ‘paintings’ by Perry Hall—the managed complexity possible by working with materials during intensive states of change allow for scalar, morphological and performative shifts according to a designer’s criteria. 3- Although both are necessary and actually complement each other, architects need to ‘catch-up’ to intensive thinking in process and modeling strategies. Our methods rely on static modeling that yield often complicated frameworks and results, wherein accepting methods of dynamic modeling suggests the capacity to propose complex and nuanced relationships and frameworks.
keywords	Material Intensities , Intensive Thinking , Material Practice
series	ACADIA
type	panel paper
email
last changed	2022/06/07 07:56

_id	sigradi2012_177
id	sigradi2012_177
authors	Davis, Felecia
year	2012
title	Form Active Translations: Knitted Textiles to 3D Printed Textiles
source	SIGraDi 2012 [Proceedings of the 16th Iberoamerican Congress of Digital Graphics] Brasil - Fortaleza 13-16 November 2012, pp. 392-396
summary	Material translation as a driver of innovation through craft, specifically the translation from machine knitted textiles to 3D rapidly prototyped textiles is discussed in this paper. If architects and designers can develop methods to translate existing textile structures and behaviors, then architects and designers can harness the vast extant knowledge base that goes into the design and fabrication of geometric textile structures and resultant behaviors to develop new materials and tools to construct active building systems that use the pliability of textiles to advantage.
keywords	3D Printed Textiles, 3D Printing, Architextiles, Knitted Materials
series	SIGRADI
email
last changed	2016/03/10 09:50

_id	acadia12_139
id	acadia12_139
authors	Erioli, Alessio ; Zomparelli, Alessandro
year	2012
title	Emergent Reefs
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. 139-148
doi	https://doi.org/10.52842/conf.acadia.2012.139
summary	The Emergent Reefs project thrives on the potential that emerge from a coherent utilization of the environment’s inherent ecological structure for its own transformation and evolution, using an approach based on digitally simulated ecosystems and sparkled by the possibilities and potential of large-scale 3D printing technology. Considering tourism as an inevitable vector of environmental change, the project aims to direct its potential and economic resources towards a positive transformation, providing a material substrate for the human-marine ecosystem integration with the realization of spaces for an underwater sculpture exhibition. Such structures will also provide a pattern of cavities which, expanding the gradient of microenvironmental conditions, break the existing homogeneity in favor of systemic heterogeneity, providing the spatial and material preconditions for the repopulation of marine biodiversity. Starting from a digital simulation of a synthetic local ecosystem, a generative technique based on multi-agent systems and continuous cellular automata (put into practice from the theoretical premises in Alan Turing’s paper “The Chemical basis of Morphogenesis” through reaction-diffusion simulation) is implemented in a voxel field at several scales giving the project a twofold quality: the implementation of reaction diffusion generative strategy within a non-isotropic 3-dimensional field and integration with the large-scale 3D printing fabrication system patented by D-Shape®. Out of these assumptions and in the intent of exploiting the expressive and tectonic potential of such technology, the project has been tackled exploring voxel-based generative strategies. Working with a discrete lattice eases the simulation of complex systems and processes across multiple scales (including non-linear simulations such as Computational Fluid-Dynamics) starting from local interactions using, for instance, algorithms based on cellular automata, which then can be translated directly to the physical production system. The purpose of Emergent-Reefs is to establish, through strategies based on computational design tools and machine-based fabrication, seamless relationships between three different aspects of the architectural process: generation, simulation and construction, which in the case of the used technology can be specified as guided growth.
keywords	emergence , reef , underwater , 3D printing , ecology , ecosystem , CFD , agency , architecture , tourism , culture , Open Source
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:55

_id	caadria2012_098
id	caadria2012_098
authors	Fok, Wendy W.
year	2012
title	Cross pollination of ideas: Design fabrication and experimentation
source	Proceedings of the 17th International Conference on Computer Aided Architectural Design Research in Asia / Chennai 25-28 April 2012, pp. 589–598
doi	https://doi.org/10.52842/conf.caadria.2012.589
summary	The following pages show a selection of studio projects which explore the opportunistic collaborative process between commercial fabricators, material sponsorships, and the institution. The articles speaks about the intersection of design experimentation and significance of fabrication within the contained process of [design \| optimisation \| fabrication]. Within this process the article intersects between practice, commercialisation, and design-research, into the development arena of architectural academic outcomes. The demonstrating fact within much of the research and development also touches upon intricate details of modularity, and designing with optimisation in mind for the purpose (and ease) of fabrication, prototyping, and ‘real-life’ production. While the focus of the academic studios deliberates and uses parametric design systems through digital and analogue modelling to contribute to a full scale designed installation, and actively working with a commercial fabricator and material sponsor (Luxx Newhouse & LG Hausys HI-MACS). The aim of the courses were to acquaint students with theoretical and practical conditions needed for the creating of experimental relational modularity between geometry, scale, and materials as well as the ability to negotiate between quick intuitive studies and definitive quantifiable decisions.
keywords	Design fabrication; material investigation; industry collaboration; architecture; industrial design
series	CAADRIA
email
last changed	2022/06/07 07:51

_id	ascaad2012_011
id	ascaad2012_011
authors	Hemsath, Timothy L.
year	2012
title	Hybridizing Digital Fabrication Techniques
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. 103-114
summary	The use of digital fabrication in the production and making of architecture is becoming a prevalent vehicle for the design process. As a result, there is a growing demand for computer-aided design (CAD) skills, computer-aided manufacturing (CAM) logic, parametric modeling and digital fabrication in student education. This paper will highlight three student projects that look to ingrate computational prototyping with digital fabrication techniques in the production of architecture. The goal is to hybridize fabrication techniques of sectioning, tessellating and folding to educate students in CAD, CAM, parametric modeling and digital fabrication. Rather than repeating conventional approaches or recreating from precedent, mixing techniques challenges students to understand the CAD technique or parameters for modeling, translate for CAM production and deal with real world constraints of materials, time and tectonics. In the end, these projects are critical of the digital and projectively speculate on the architectural detail in an age of digital ubiquity.
series	ASCAAD
email
more	http://www.ascaad.org/conference/2012/papers/ascaad2012_011.pdf
last changed	2012/05/15 20:46

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