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	caadria2015_185
id	caadria2015_185
authors	De Oliveira, Maria João and Vasco Moreira Rato
year	2015
title	From Morphogenetic Data to Performative Behaviour
source	Emerging Experience in Past, Present and Future of Digital Architecture, Proceedings of the 20th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA 2015) / Daegu 20-22 May 2015, pp. 765-774
doi	https://doi.org/10.52842/conf.caadria.2015.765
summary	This paper presents part of CORK’EWS, a research work developed within the framework of the Digital Architecture Advanced Program 2012/13 at ISCTE-IUL. The main goal of this investigation was to develop a parametric, customizable and adaptive wall system designed for environmental performance. Moreover, the system is based on standard industrial products: expanded cork blocks produced by Amorim Insulation industries. CAD/CAM resources were the essential tools of the research process, where fundamental and practical knowledge is integrated to understand the microstructure morphological properties of the raw material – cork – and its derivate – natural expanded cork. These properties were upscale and adapted to create a wall with an optimized solar control environmental performance. The result is a digitally fabricated prototype of a new customizable industrial product, adaptable to specific environmental conditions and installation setups being therefore easily commercialized. From microstructural morphology to macroscale construction, the research explores new application possibilities through morphogenesis and opens new possible markets for these customizable products.
keywords	Morphogenesis; performance; shading systems; cork.
series	CAADRIA
email
last changed	2022/06/07 07:55

_id	c4bd
id	c4bd
authors	Derix C, Gamlesæter A, Miranda P, Helme L and Kropf K
year	2012
title	Simulation Heuristics for Urban Design
source	In Mueller Arisona et al (eds), Digital Urban Modelling and Simulation: Communications in Computer and Information Science, Springer, Heidelberg, 2012
summary	Designing simulations for urban design not only requires explicit performance criteria of planning standards but a synthesis of implicit design objectives, that we will call ‘purpose rules’, with computational approaches. The former would at most lead to automation of the existing planning processes for speed and evaluation, the latter to an understanding of perceived urban qualities and their effect on the planning of cities. In order to transform purpose rules into encoded principles we argue that the focus should not be on defining parametric constraints and quantities, but on aligning the perceptual properties of the simulations with the strategies of the stakeholders (planner/ urban designer/ architect/ developer/ community). Using projects from the Computational Design and Research group at Aedas [CDR] as examples, this chapter will discuss how an open framework of lightweight applications with simple functionality can be integrated into the design and planning process by using computational simulations as urban design heuristics.
keywords	urban design, design heuristics, meta-heuristics, simulation, algorithm visualization
series	book
type	normal paper
email
more	http://www.springerlink.com/content/g58114676q4228h8/?MUD=MP
last changed	2012/09/20 14:17

_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	ijac201210403
id	ijac201210403
authors	Gerber, David J.
year	2012
title	PARA-Typing Informing Form and the Making of Difference
source	International Journal of Architectural Computing vol. 10 - no. 4, 501-520
summary	This paper presents design research and instruction into the use of constraint based digital and analogue modelling techniques and the development of associative parametric models to simulate highly differentiated fabricated form. One set of these design research projects were conceived as manual analogue generative processes for prototyping modularity and serial differentiation.Then through parametric design techniques, modular aggregations were design explored and developed in concert with material properties and constraints. Utilizing digital fabrication full-scale installations were designed, manufactured, and for site-specific configurations. A second set of projects provides an extension of the design instruction that includes the integration of performance criteria into these design objectives.The objectives of the research are to present benefits and limitations of the incorporation of parametric design, performance analysis, and prototyping techniques in comprehensive studio instruction.The paper discusses the resultant informed materialized difference and the impacts on achieving reinforced and hands on learning objectives.
keywords	Generative design; parametric modelling; prototyping; digital fabrication; design pedagogy; performative design
series	journal
last changed	2019/05/24 09:55

_id	caadria2017_142
id	caadria2017_142
authors	Kaijima, Sawako, Tan, Ying Yi and Lee, Tat Lin
year	2017
title	Functionally Graded Architectural Detailing using Multi-Material Additive Manufacturing
source	P. Janssen, P. Loh, A. Raonic, M. A. Schnabel (eds.), Protocols, Flows, and Glitches - Proceedings of the 22nd CAADRIA Conference, Xi'an Jiaotong-Liverpool University, Suzhou, China, 5-8 April 2017, pp. 427-436
doi	https://doi.org/10.52842/conf.caadria.2017.427
summary	The paper presents a future architectural detailing strategy enabled by the design of functionally graded materials (FGM). In specific, our proposal suggests the possibility of removing mechanical fasteners and adhesives from joint details. This is achieved by combining the principles of interlocking joineries found in traditional timber structures and current Multi-Material Additive Manufacturing (MMAM) technology to materialise FGMs. FGM belongs to a class of advanced materials characterised by variation in properties as the dimension varies by combining two or more materials at a microscopic scale (Mahamood et al. 2012). FGM is ubiquitous in nature and, when properly designed, can exhibit superior performance characteristics compared to objects comprised of homogeneous material properties. With the aim of developing interlocking details with improved performance, reliability, and design flexibility, we focus on controlling material stiffness, joint fitting, and geometry through the design of the microscopic material layout. A case study design will be presented to illustrate the process.
keywords	Functionality Graded Material; Multi-Material Additive Manufacturing ; Architectural Detailing; Interlocking Joints
series	CAADRIA
email
last changed	2022/06/07 07:52

_id	caadria2012_074
id	caadria2012_074
authors	Markova, Stanimira and Andreas Dieckmann
year	2012
title	An IFC based design check approach for the optimisation of material efficiency in the built environment
source	Proceedings of the 17th International Conference on Computer Aided Architectural Design Research in Asia / Chennai 25-28 April 2012, pp. 275–284
doi	https://doi.org/10.52842/conf.caadria.2012.275
summary	Compared to other industries, the built environment is still the largest and one of the least efficient consumers of resources. Existing measures and procedures for resource recovery and reuse are focused on the demolition phase, when the composition of materials and structures is mostly unknown and hard to be analysed. Therefore, these measures are somewhat inefficient for overall high-rate material recovery. The enhancement of the integrated semantic planning process by the introduction of the IFC unified data standard and BIM technology is a first-time opportunity to track, analyse, document and simulate all relevant players, parameters and processes with an impact on the resource and material efficiency through the entire life cycle of a building in the design phase of a building project. The presented work explores the potential of IFC to serve as a framework for achieving a higher material efficiency in the built environment. A proposed design check approach for the simulation and optimisation of material efficiency in a building over its life cycle is based on a system of key parameters and actions organised in logic trees. The parameters and actions are translated into IFC objects. Additionally required IFC objects and properties are identified and described.
keywords	BIM; IFC; integrative design; material efficiency design
series	CAADRIA
email
last changed	2022/06/07 07:59

_id	acadia12_87
id	acadia12_87
authors	Menicovich, David ; Gallardo, Daniele ; Bevilaqua, Riccardo ; Vollen, Jason
year	2012
title	Generation and Integration of an Aerodynamic Performance Data Base Within the Concept Design Phase of Tall Buildings
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. 87-96
doi	https://doi.org/10.52842/conf.acadia.2012.087
summary	Despite the fact that tall buildings are the most wind affected architectural typology, testing for aerodynamic performance is conducted during the later design phases well after the overall geometry has been developed. In this context, aerodynamic performance studies are limited to evaluating an existing design rather than a systematic performance study of design options driving form generation. Beyond constrains of time and cost of wind tunnel testing, which is still more reliable than Computational Fluid Dynamics (CFD) simulations for wind conditions around buildings, aerodynamic performance criteria lack an immediate interface with parametric design tools. This study details a framework for empirical data collection through wind tunnel testing of building mechatronic models and the expansion of the collected dataset by determining a mathematical interpolating model using an Artificial Neural Network (ANN) algorithm developing an Aerodynamic Performance Data Base (APDB). Frederick Keisler called the interacting of forces CO-REALITY, which he defined as The Science of Relationships. In the same article Keisler proclaims that the Form Follows Function is an outmoded understanding that design must demonstrate continuous variability in response to interactions of competing forces. This topographic space is both constant and fleeting where form is developed through the broadcasting of conflict and divergence as a system seeks balance and where one state of matter is passing by another; a decidedly fluid system. However, in spite of the fact that most of our environment consists of fluids or fluid reactions, instantaneous and geologic, natural and engineered, we have restricted ourselves to approaching the design of buildings and their interactions with the environment through solids, their properties and geometry; flow is considered well after the concept design stage and as validation of form. The research described herein explores alternative relations between the object and the flows around it as an iterative process, moving away from the traditional approach of Form Follows Function to Form Follows Flow.
keywords	Tall Buildings , Mechatronics , Artificial Neural Network , Aerodynamic Performance Data Base
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:58

_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	ijac201210107
id	ijac201210107
authors	Weston, Mark
year	2012
title	Anisotropic Operations
source	International Journal of Architectural Computing vol. 10 - no. 1, 105-120
summary	Deliberately introduced unidirectional material weakening is explored as a means of producing material properties which exploit natural material tendencies rather than as a means to compensate for them. Such anisotropic operations take natural systems as a point of departure for man-made approaches to the augmentation of building performance in the realm of solar shading, but also for the creation of materially complex architectural environments.
series	journal
last changed	2019/07/30 10:55

_id	sigradi2012_223
id	sigradi2012_223
authors	Alvarado, Rodrigo Garcia; Mardones, Oscar Otárola
year	2012
title	Eco-losas: desarrollo de componentes constructivos más eficientes por análisis topológico y diseño paramétrico. [Eco-slabs: development of more efficient building components by topological analysis and parametric design]
source	SIGraDi 2012 [Proceedings of the 16th Iberoamerican Congress of Digital Graphics] Brasil - Fortaleza 13-16 November 2012, pp. 630-632
summary	It exposes a design and construction system for horizontal plates to work as slabs in regular concrete buildings. Based to an evolutionary finite-element analysis of the topological configuration to get a curved design with a 50% reduction of traditional volume, that provide lower cost, less carbon foot-print, better performance and innovative ceiling. A library of profiles is elaborated according different loads, support and dimensions and implemented in a parametric design system, in order to produce geometries for study theirs integration in the building and to elaborate digital fabrication files. Different constructive strategies are been studied, making several prototypes.
keywords	Losas, Análisis Topológico, Diseño Paramétrico, Fabricación Digital
series	SIGRADI
email
last changed	2016/03/10 09:47

_id	ecaade2012_247
id	ecaade2012_247
authors	Balaban, Özgün; Kilimci, Elif Sezen Yagmur; Cagdas, Gülen
year	2012
title	Automated Code Compliance Checking Model for Fire Egress Codes
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. 117-125
doi	https://doi.org/10.52842/conf.ecaade.2012.2.117
wos	WOS:000330320600011
summary	Architecture today has come to its most complex form. There are lots of criteria such as fi re safety, structure, sustainability etc… which must be controlled by the designers. To improve the performance and accessibility of buildings, governing bodies publish different codes for each of the different criteria. Buildings must comply with these codes to get a permit for construction. The checking of the buildings according the codes is done manually by code offi cials. This process is time consuming, high in cost and prone to errors. To remedy this problem by using the tools like BIM and AI, systems that can automatically check the code compliance of projects are being developed. In this paper we provide an overview of the structures and capabilities of these systems and present the automated code compliance checking system that we develop for checking building models against some parts of the Turkish Fire Codes.
keywords	Automated Code Compliance Checking; Fire Codes; BIM
series	eCAADe
email
last changed	2022/06/07 07:54

_id	acadia12_231
id	acadia12_231
authors	Bell, Brad
year	2012
title	Parametric Precast Concrete Panel System
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. 231-238
doi	https://doi.org/10.52842/conf.acadia.2012.231
summary	The working hypothesis of this research focuses on the potential of utilizing a digital toolset to engage information within a surrounding context for the purpose of creating a more intelligent pre-cast concrete panel system. The Parametric Pre-Cast Concrete Panel System is a research project attempting to parametrically define geometry for the purpose of producing formwork based on quantitative information related to issues such as environmental control systems, sound abatement, as well as qualitative information like non-standard variation paneling, and aesthetic composition.
keywords	Energy , form , structures , performance , simulation , prototyping , precast , concrete
series	ACADIA
type	panel paper
email
last changed	2022/06/07 07:54

_id	acadia12_127
id	acadia12_127
authors	Burry, Jane ; Burry, Mark ; Tamke, Martin ; Thomsen, Mette Ramsgard ; Ayres, Phil ; Leon, Alex Pena de ; Davis, Daniel ; Deleuran, Abders ; Nielson, Stig ; Riiber, Jacob
year	2012
title	Process Through Practice: Synthesizing a Novel Design and Production Ecology
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. 127-138
doi	https://doi.org/10.52842/conf.acadia.2012.127
summary	This paper describes the development of a design and prototype production system for novel structural use of networked small components of wood deploying elastic and plastic bending. The design process engaged with a significant number of different overlapping and interrelated design criteria and parameters, a high level of complexity, custom component geometry and the development of digital tools and procedures for real time feedback and productivity. The aims were to maximize learning in the second order cybernetic sense through empirical experience from analogue modeling, measurement and digital visual feedback and to capture new knowledge specifically regarding intrinsic material behavior applied and tested in a heterogeneous networked context. The outcome was a prototype system of design ideation, conceptualization, development and production that integrated real time material performance simulation and feedback. The outcome was amplified through carrying out the research over a series of workshops with distinct foci and participation. Two full scale demonstrators have so far been constructed and exhibited as outputs of the process.
keywords	Material behavior , Complex modeling feedback , progressive synthetic learning
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	acadia12_239
id	acadia12_239
authors	Jackson, Jesse ; Stern, Luke
year	2012
title	Fabricating Sustainable Concrete Elements: A Physical Instantiation of the Marching Cubes Algorithm
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. 239-247
doi	https://doi.org/10.52842/conf.acadia.2012.239
summary	This paper explores how an algorithm designed to represent form can be made physical, and how this physical instantiation can be made to respond to a set of design imperatives. Specifically, the paper demonstrates how Marching Cubes (Lorensen and Cline 1987), an algorithm that extracts a polygonal mesh from a scalar field, can be used to initiate the design for a system of modular concrete armature elements that permit a large degree of variability using a small number of discrete parts. The design of these elements was developed in response to a close examination of Frank Lloyd Wright's Usonian Automatic system, an architecturally pertinent historical precedent. The fabricated results positively satisfy contemporary design criteria, including maximal formal freedom, optimal environmental performance, and minimal life-cycle costs.
keywords	Form-finding Algorithms , Digital Fabrication , Sustainability , Frank Lloyd Wright , Concrete , Tectonic Elements
series	ACADIA
type	panel paper
email
last changed	2022/06/07 07:52

_id	acadia12_287
id	acadia12_287
authors	McGee, Wes ; Newell, Catie ; Willette, Aaron
year	2012
title	Glass Cast: A Reconfigurable Tooling System for Free-Form Glass Manufacturing
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. 287-294
doi	https://doi.org/10.52842/conf.acadia.2012.287
summary	Despite glass’s ubiquity in the modern built environment it is rarely applied in applications requiring complex curvature. The high temperatures and complexity of techniques utilized in forming curved glass panels are typically very expensive to employ, requiring dedicated hard-tooling which ultimately limits the formal variation that can be achieved. This combination of economic and manufacturing barriers limits both the formal possibilities and potentially the overall envelope-performance characteristics of the glazing system. This research investigates a methodology for utilizing reconfigurable tooling to form glass into doubly curved geometries, offering the potential for improved structural and environmental performance in a material that has remained largely unchanged since the advent of its industrial manufacturing. A custom built forming kiln has been developed and tested, integrated through a parametric modeling workflow to provide manufacturing constraint feedback directly into the design process. The research also investigates the post-form trimming of glass utilizing robotic abrasive waterjet cutting, allowing for the output of machine control data directly from the digital model. 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	Digital Fabrication , Robotic Fabrication , Computational Design , Material Computation
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:58

_id	ecaade2013_128
id	ecaade2013_128
authors	Symeonidou, Ioanna; Hirschberg, Urs and Kaftan, Martin
year	2013
title	Designing the Negative
source	Stouffs, Rudi and Sariyildiz, Sevil (eds.), Computation and Performance – Proceedings of the 31st eCAADe Conference – Volume 1, Faculty of Architecture, Delft University of Technology, Delft, The Netherlands, 18-20 September 2013, pp. 683-691
doi	https://doi.org/10.52842/conf.ecaade.2013.1.683
wos	WOS:000340635300071
summary	Designing the Negative was the title of a Master Studio that took place at the Institute of Architecture and Media of Graz University of Technology during the summer semester of 2012. Students designed and fabricated prototypes of customized concrete formwork as part of their studio assignment. The studio theme forced students to think about digital fabrication with parametric tools in a hands-on fashion. Using robotic technology and hot-wire cutting, students worked with the robot’s constraints (size of the robot’s arm, robot’s axis and tool’s restrictions) to design complex curved elements that could serve as formwork (the negative) for cast concrete elements (the positive). The students were asked to design a production strategy for their cast concrete elements as well as the application of said elements in an architectural scheme. The student projects confirmed the value of a pedagogy that takes on research-relevant questions in an interdisciplinary studio setting and engages students in a process that is best described as digital crafting: it simultaneously addressed the conceptual and technical as well as the material and tactile aspects of digital fabrication and design.
keywords	Digital fabrication; customization; concrete; hot-wire cutting; parametric design.
series	eCAADe
email
last changed	2022/06/07 07:56

_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	sigradi2012_186
id	sigradi2012_186
authors	Aghaei Meibodi, Mania; Aghaiemeybodi, Hamia
year	2012
title	Symbiosis of Structural & Non-Structural properties in Building
source	SIGraDi 2012 [Proceedings of the 16th Iberoamerican Congress of Digital Graphics] Brasil - Fortaleza 13-16 November 2012, pp. 602-606
summary	This paper highlights the different interplays between structural and non-structural parts in building artifact as the result of modes of building processes and massing. The massing is understood as processes of assembling material into a body through which we identify with the building physically. In the last decade architecture discipline as the result of technological inventions has faced shifts in the design processes, massing processes and topology of the artefact. In which we witness integral coexistence between the structural and non-structural elements of building. In this paper the seeds of this integral interplay is scrutinised through the study of design and massing processes of a multi-functional pavilion prototype as a case study.
keywords	digital surface; prototype; design processes; structural; formation
series	SIGRADI
email
last changed	2016/03/10 09:47

_id	acadia12_391
id	acadia12_391
authors	Ajlouni, Rima
year	2012
title	The Forbidden Symmetries
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. 391-400
doi	https://doi.org/10.52842/conf.acadia.2012.391
summary	The emergence of quasi-periodic tiling theories in mathematics and material science is revealing a new class of symmetry, which had never been accessible before. Because of their astounding visual and structural properties, quasi-periodic symmetries can be ideally suited for many applications in art and architecture; providing a rich source of ideas for articulating form, pattern, surface and structure. However, since their discovery, the unique long-range order of quasi-periodic symmetries, is still posing a perplexing puzzle. As rule-based systems, the ability to algorithmically generate these complicated symmetries can be instrumental in understanding and manipulating their geometry. Recently, the discovery of quasi-periodic patterns in ancient Islamic architecture is providing a unique example of how ancient mathematics can inform our understanding of some basic theories in modern science. The recent investigation into these complex and chaotic formations is providing evidence to show that ancient designers, by using the most primitive tools (a compass and a straightedge) were able to resolve the complicated long-range principles of ten-fold quasi-periodic formations. Derived from these ancient principles, this paper presents a computational model for describing the long-range order of octagon-based quasi-periodic formations. The objective of the study is to design an algorithm for constructing large patches of octagon-based quasi-crystalline formations. The proposed algorithm is proven to be successful in producing an infinite and defect-free covering of the two-dimensional plane.
keywords	computational model , quasi-crystalline , symmetries , algorithms , complex geometry
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

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