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	acadia09_82
id	acadia09_82
authors	Bitonti, Francis
year	2009
title	Computational Tectonics
source	ACADIA 09: reForm( ) - Building a Better Tomorrow [Proceedings of the 29th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-9842705-0-7] Chicago (Illinois) 22-25 October, 2009), pp. 82-89
doi	https://doi.org/10.52842/conf.acadia.2009.082
summary	The goal of this research is to define a methodology for the construction of complex non-repeating surfaces and structures that rely on the formulation of a singular tectonic mechanism. Computational systems like cellular automata seem to suggest that it might be possible for modular material systems to self-assemble into complex organizations. A single series of modular parts could be capable of producing not only complex behavior, but also, depending on initial conditions, simple periodic behavior. The research outlined in this paper uses simple geometric transformations to produce tectonic computers that can be applied to a variety of building systems. This paper outlines a methodology for encoding and decoding material assemblages as discrete computational systems. Exploiting the combinatorial nature of tectonic systems makes it possible to produce a population of “material algorithms” capable of exhibiting a wide range of behaviors. Encoding assemblages as discrete systems affords the designer the ability to enumerate and search all possible permutations of a tectonic system. In this paper, we will discuss the calculations and computational processes used to encode material assemblages as populations of discrete algorithms.
keywords	Fabrication, modular system, structure, enumeration systems, material algorithms
series	ACADIA
type	Normal paper
email
last changed	2022/06/07 07:52

_id	ecaade2009_021
id	ecaade2009_021
authors	Fleischmann, Moritz; Ahlquist, Sean
year	2009
title	Cylindrical Mesh Morphologies: Study of Computational Meshes based on Parameters of Force, Material, and Space for the Design of Tension-Active Structures
source	Computation: The New Realm of Architectural Design [27th eCAADe Conference Proceedings / ISBN 978-0-9541183-8-9] Istanbul (Turkey) 16-19 September 2009, pp. 39-46
doi	https://doi.org/10.52842/conf.ecaade.2009.039
wos	WOS:000334282200003
summary	In experimenting with digital processes for simulating the behavior of tension-active cable nets, a method was developed for creating informed geometries by utilizing computational meshes that carry properties of structure, space, and material. A spring-based particle system provided the dynamics to simulate the flow of tension force through the geometry. Particular functions were scripted to embed logics for fabrication and analysis of spatial parameters. This formulated a lightweight, reactive design tool for which multiple cable net morphologies could be quickly generated. This paper will describe the experiments in creating the method to generate such cable net morphologies, and discuss the potential application for this computational framework to apply to other architectural systems.
keywords	Computation, particle system, spring, dynamic relaxation, processing, fabrication
series	eCAADe
email
last changed	2022/06/07 07:51

_id	acadia09_291
id	acadia09_291
authors	Hemsath, Timothy L.; McCracken, Brian; Russell, Darin
year	2009
title	Decon Recon: Parametric CADCAM Deconstruction Research
source	ACADIA 09: reForm( ) - Building a Better Tomorrow [Proceedings of the 29th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-9842705-0-7] Chicago (Illinois) 22-25 October, 2009), pp. 291-293
doi	https://doi.org/10.52842/conf.acadia.2009.291
summary	The deconstruction (DeCon) and repurposing (ReCon) of existing structures and materials are worthwhile and relevant endeavors given the potential for such procedures to be more economically and environmentally sustainable than conventional construction methods. Conventional construction methods often utilize virgin materials for the production of architecture, requiring extensive energy to harvest, process, and manufacture the materials for use. Today, we must face the fact that we exist in a carbon-sensitive economy, and demand design approaches that reduce architecture’s impact on the environment. Our goal was to develop a CADCAM ReCon design methodology that would have the potential to mitigate carbon consumption. To explore this goal, students engaged a design research project that looked for novel and innovative approaches to the DeCon and ReCon of an existing barn. The student researchers created parametric models and surface designs derived from the existing materials. The digitally fabricated tectonic design constructions resulted in economical, novel, and material-efficient design methodologies for DeCon and ReCon.
keywords	Fabrication, environment, CADCAM, Parametric Design
series	ACADIA
type	Short paper
email
last changed	2022/06/07 07:49

_id	ecaade2009_006
id	ecaade2009_006
authors	Menges, Achim
year	2009
title	Integral Computational Design for Composite Spacer Fabric Structures: Integral Processes of Form Generation and Fabrication for Sandwich Structured Composites with 3D Warp-Knitted Textile Core
source	Computation: The New Realm of Architectural Design [27th eCAADe Conference Proceedings / ISBN 978-0-9541183-8-9] Istanbul (Turkey) 16-19 September 2009, pp. 289-298
doi	https://doi.org/10.52842/conf.ecaade.2009.289
wos	WOS:000334282200035
summary	Spacer fabrics are three dimensionally warp-knitted textiles that can be draped over complex double curved surfaces with no need for cut patterns or additional seams. This paper explains the development of an integral computational approach to the design and fabrication of sandwich composite structures with a spacer fabric core. Contrary to the common hierarchy of architectural design processes that prioritizes the definition of form over the inherent characteristics of materialization, this approach aims at an integral computational design process capable of unfolding a design from the constraints of making. The way the material capacity of spacer fabrics combined with the constraints of sandwich composite manufacturing directly informs the computational design process will be explained along the development of two prototype structures.
keywords	Integral computational design, computational morphogenesis, computer aided manufacturing, digital fabrication, computational design methodology, composite structure, material system, spacer fabric, 3D warp-knitted textile, sandwich lay-up
series	eCAADe
email
last changed	2022/06/07 07:58

_id	cf2009_poster_45
id	cf2009_poster_45
authors	Okuda, Shinya
year	2009
title	Bio-shell (Biodegradable vacuum-formed modularized shelter)
source	T. Tidafi and T. Dorta (eds) Joining Languages Cultures and Visions: CAADFutures 2009 CD-Rom
summary	This poster demonstrates how digitally fabricated vacuum-formed components can provide a new type of lightweight construction applicable to architecture. Surface-active systems such as a thin-shell concrete domes are some of the most material-efficient structures. Despite their efficiency few have been constructed recently due to necessary extensive labor cost. However, the growing concern for a worldwide shortage of natural resources and rising material costs, suggests that we reconsider the use of efficient structures, such as surface-active systems. Vacuum formed plastics mainly used in industrial design have strong merit based on their fast and low-cost mass production. Together with the recent emergence of digital fabrication technologies, the vacuum forming process is becoming an attractive fabrication technique for new and innovative lightweight structures.
keywords	Digital Fabrication, Biodegradable, lightweight structure
series	CAAD Futures
type	poster
email
last changed	2009/08/21 07:41

_id	acadia23_v1_220
id	acadia23_v1_220
authors	Ruan, Daniel; Adel, Arash
year	2023
title	Robotic Fabrication of Nail Laminated Timber: A Case Study Exhibition
source	ACADIA 2023: Habits of the Anthropocene: Scarcity and Abundance in a Post-Material Economy [Volume 1: Projects Catalog of the 43rd Annual Conference of the Association of Computer Aided Design in Architecture (ACADIA) ISBN 979-8-9860805-8-1]. Denver. 26-28 October 2023. edited by A. Crawford, N. Diniz, R. Beckett, J. Vanucchi, M. Swackhamer 220-225.
summary	Previous research projects (Adel, Agustynowicz, and Wehrle 2021; Adel Ahmadian 2020; Craney and Adel 2020; Adel et al. 2018; Apolinarska et al. 2016; Helm et al. 2017; Willmann et al. 2015; Oesterle 2009) have explored the use of comprehensive digital design-to-fabrication workflows for the construction of nonstandard timber structures employing robotic assembly technologies. More recently, the Robotically Fabricated Structure (RFS), a bespoke outdoor timber pavilion, demonstrated the potential for highly articulated timber architecture using short timber elements and human-robot collaborative assembly (HRCA) (Adel 2022). In the developed HRCA process, a human operator and a human fabricator work alongside industrial robotic arms in a shared working environment, enabling collaborative fabrication approaches. Building upon this research, we present an exploration adapting HRCA to nail-laminated timber (NLT) fabrication, demonstrated through a case study exhibition (Figures 1 and 2).
series	ACADIA
type	project
email
last changed	2024/04/17 13:58

_id	ijac20097408
id	ijac20097408
authors	Biloria, Nimish; Valentina Sumini
year	2009
title	Performative Building Skin Systems: A Morphogenomic Approach Towards Developing Real-Time Adaptive Building Skin Systems
source	International Journal of Architectural Computing vol. 7 - no. 4, 643-676
summary	Morphogenomics, a relatively new research area, involves understanding the role played by information regulation in the emergence of diverse natural and artificially generated morphologies. Performative building skin systems as a bottom-up parametric formation of context aware interdependent, ubiquitously communicating components leading to the development of continually performative systems is one of the multi-scalar derivations of the aforementioned Morphogenomic understanding. The agenda of adaptations for these building skins specifically corresponds to three domains of adaptation: structural, behavioral and physiological adaptations resulting in kinetic adaptability, energy generation, conservation, transport and usage principles as well as material property based changes per component. The developed skins adapt in real time via operating upon ubiquitous communication and data-regulation protocols for sensing and processing contextual information. Computational processes and information technology based tools and techniques such as parametric design, real-time simulation using game design software, environmental information mapping, sensing and actuating systems coupled with inbuilt control systems as well as manufacturing physical models in collaboration with praxis form a vital part of these skin systems. These experiments and analysis based on developing intrinsic inter-dependencies between contextual data, structure and material logistics thus lay the foundation for a new era of continually performing, self powering, real-time adaptive intelligent building skin systems.
series	journal
last changed	2010/09/06 08:02

_id	ecaade2011_136
id	ecaade2011_136
authors	Bohnenberger, Sascha; de Rycke, Klaas; Weilandt, Agnes
year	2011
title	Lattice Spaces: Form optimisation throgh customization of non developable 3d wood surfaces
source	RESPECTING FRAGILE PLACES [29th eCAADe Conference Proceedings / ISBN 978-9-4912070-1-3], University of Ljubljana, Faculty of Architecture (Slovenia) 21-24 September 2011, pp.751-758
doi	https://doi.org/10.52842/conf.ecaade.2011.751
wos	WOS:000335665500087
summary	This paper discusses a collaborative project by RDAI architects, Bollinger+Grohmann and the timber construction company Holzbau Amann. The project is located in a former swimming pool in Paris and it is part of the new interior of a flagship store of the French fashion label Hermes. In late 2009, Rena Duma Architects, asked Bollinger+Grohmann to collaborate as structural engineers on a challenging design proposal within a very short timeframe. Three wooden lattice structures, the so-called “bulle” and one monumental staircase with a similar design approach characterize the interior of the new flagship store. The lattice structures are dividing the basement into different retail spaces. They vary in height (8-9 m) and diameter (8-12 m) and have a free-form shaped wicker basket appearance. Wood was the chosen material for these structures to strengthen the idea of the wickerbaskets and to create an interior space with a sustainable and innovative material.
keywords	Digital production; parametric design; mass customization; wood; digital crafting
series	eCAADe
email
last changed	2022/05/01 23:21

_id	4f1b
id	4f1b
authors	Booth, Peter
year	2009
title	Digital Materiality: emergent computational fabrication
source	Performative Ecologies in the Built Environment: Sustainability Research Accross Disciplines: 43rd Annual Conference of the Australian and New Zealand Architectural Science Association
summary	Fundamentally architecture is a material-based practice that implies that making and the close engagement of materiality is intrinsic to design process. With the rapid uptake of new computational tools and fabrication techniques by the architectural profession there is potential for the connection between architecture and materiality to be diminished. Innovative digital technologies are redefining the relationship between design and construction encoding in the process new ways of thinking about architecture. A new archetype of sustainable architectural process is emerging, often cited as Digital Materialism. Advanced computational processes are moving digital toolsets away from a representational mode towards being integral to the design process. These methods are allowing complex design variables (material, fabrication, environment, etc.) to be interplayed within the design process, allowing an active relationship between performative criteria and design sustainability to be embedded within design methodology.
keywords	Digital, Process, Material, Fabrication
series	other
type	normal paper
email
last changed	2010/03/06 02:53

_id	sigradi2009_2001
id	sigradi2009_2001
authors	Corradi, Eduardo Marotti; Gabriela Celani
year	2009
title	O "túnel de vento" - um exercício de projeto baseado em técnicas de animação [The "Wind Tunnel" - A Design Exercise Based in Animation Techniques]
source	SIGraDi 2009 - Proceedings of the 13th Congress of the Iberoamerican Society of Digital Graphics, Sao Paulo, Brazil, November 16-18, 2009
summary	The objective of the present research was to study the use of animation techniques as a tool for the design process. The study started with a literature review about the different possible applications of animation techniques in architectural design. Four main categories of applications were found: (1) space representation and “walk through”, (2) simulation of articulated elements and kinetic structures, (3) visualization and analysis of functional aspects of the buildings, such as circulation and fire escape, and finally (4) the generation of novel shapes. The second part of the research consisted of a design exercise in which animation techniques were used to generate a shape. For this purpose a wind simulator was used in 3DMAX. Next, Paracloud software was used to automatically generate a rib structure that allowed to produce a scale model of the shape with a laser cutter.
keywords	Animation; design process; digital fabrication
series	SIGRADI
type	normal paper
email
last changed	2016/03/10 09:49

_id	sigradi2009_968
id	sigradi2009_968
authors	Figueiredo, Bruno Acácio Ferreira; José P. Duarte
year	2009
title	Making customized tree-like structures: Integrating algorithmic design with digital fabrication
source	SIGraDi 2009 - Proceedings of the 13th Congress of the Iberoamerican Society of Digital Graphics, Sao Paulo, Brazil, November 16-18, 2009
summary	The ultimate goal of this paper is to contribute for the discussion on the role of digital technologies in architecture, focusing on the convergence of generative design systems with digital fabrication processes for expanding design capabilities. It presents a generative design system of customized tree-like structures for supporting irregular roof surfaces, as an alternative to conventional architectural design processes. It discusses the introduction of an algorithmic and parametric approach to design problems as a methodology for promoting design experimentation and enabling the fabrication of complex design configurations.
keywords	Generative Design System; Parametric Design; Digital Fabrication; CAD/CAM; AutoLISP
series	SIGRADI
email
last changed	2016/03/10 09:51

_id	acadia09_90
id	acadia09_90
authors	Fox, Michael
year	2009
title	Flockwall: A Full-Scale Spatial Environment with Discrete Collaborative Modules
source	ACADIA 09: reForm( ) - Building a Better Tomorrow [Proceedings of the 29th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-9842705-0-7] Chicago (Illinois) 22-25 October, 2009), pp. 90-97
doi	https://doi.org/10.52842/conf.acadia.2009.090
summary	The paper highlights a built example of a human-scale spatial environment composed of discrete collaborative modules. The primary goals were to develop and understand strategies that can be applied to interactive architecture. The design and construction were carried out in an academic context that was displayed to a public audience of approximately 200,000 people over the course of three days. In addressing the performance parameters of the prototype, the concept focused on several key strategies: 1) geometry 2) movement 3) connections 4) scale and 5) computational control, and human interaction. The final objective of the approach was to create an innovative design that was a minimally functional spatial environment with the capability for evolving additional multi-functionality. Heavy emphasis was placed on creating a full-scale environment that a person could walk through, interact with, and experience spatially.
keywords	Geometry, design logic, flock behavior, prototype, fabrication, responsive systems
series	ACADIA
type	Normal paper
email
last changed	2022/06/07 07:50

_id	acadia09_110
id	acadia09_110
authors	Gharleghi, Mehran; Sadeghy, Amin
year	2009
title	Adaptive Pneus
source	ACADIA 09: reForm( ) - Building a Better Tomorrow [Proceedings of the 29th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-9842705-0-7] Chicago (Illinois) 22-25 October, 2009), pp. 110-117
doi	https://doi.org/10.52842/conf.acadia.2009.110
summary	The research focuses on the performative capacities of a pneumatic material system in regards to the specific environmental conditions. The use of Adaptation as a mechanism to modulate environmental performance was the main focus of the design process and research. The location of the sun during the day acts as a trigger to adapt the system, allowing the system to passively augment the environmental conditions. A new form-finding method that combines digital and material processes has been the main method by which the experiments were undertaken. This approach necessitates a dramatic shift in the architectural design, from producing static to environmentally responsive objects. It requires a shift in thinking from buildings as static and non-active systems to material system existing over time within specific environments capable of complex environmental performances.
keywords	Responsive design, fabrication, prototyping, form finding, solar shading
series	ACADIA
type	Normal paper
email
last changed	2022/06/07 07:51

_id	ecaade2009_129
id	ecaade2009_129
authors	Hemmerling, Marco
year	2009
title	Twister: An Integral Approach towards Digital Design and Construction
source	Computation: The New Realm of Architectural Design [27th eCAADe Conference Proceedings / ISBN 978-0-9541183-8-9] Istanbul (Turkey) 16-19 September 2009, pp. 299-304
doi	https://doi.org/10.52842/conf.ecaade.2009.299
wos	WOS:000334282200036
summary	The paper outlines the relevance of computational geometry within the design and production process of architecture. Based on the case study “Twister”, the digital chain - from the initial form-finding to the final realization of spatial concepts - is discussed in relation to geometric principles. The association with the fascinating complexity, which can be found in nature and its underlying geometry was the starting point for the project presented in the paper. The translation of geometric principles into a three-dimensional digital design model was followed by a process of transformation and optimization of the initial shape, that integrated aesthetic, spatial and structural qualities as well as aspects of material properties and conditions of production.
keywords	Geometry, 3D modeling, rapid prototyping, photogrammetry, digital fabrication
series	eCAADe
email
last changed	2022/06/07 07:49

_id	caadria2009_033
id	caadria2009_033
authors	Hua, Hao; Biao Li, Yong Shan, Hong Zhang and Hong-mei Zhai
year	2009
title	Virtual Organism: Generative Tool Based on Multi-Agent System
source	Proceedings of the 14th International Conference on Computer Aided Architectural Design Research in Asia / Yunlin (Taiwan) 22-25 April 2009, pp. 625-634
doi	https://doi.org/10.52842/conf.caadria.2009.625
summary	A multi-agent system (MAS) is efficient as it can emulate a variety of organisms in natural science due to the interactions between agents, which make artificial systems responsive and adaptive. In “Bamboo Workshop” involved flexible structures, MAS was employed to create virtual organism in computational environment towards an innovative process in installation design. A generative tool with friendly user interface was developed for both observation and intervention besides debugging. At the same time investigations were carried on the complex behaviours of the system through graphic statistics. Integrated with the generative tool, a construction system made up of bamboo materials was set up to build a series of mobile and flexible installations. This experiment suggests that the virtual organism has the potential for being a part of the design intelligence, beyond a mere digital tool.
keywords	Virtual organism: multi-agent system; flexible structure; mobile installation
series	CAADRIA
email
last changed	2022/06/07 07:49

_id	sigradi2009_938
id	sigradi2009_938
authors	Klinger, Kevin R.
year	2009
title	Digital Design through Production Pedagogy: Cases Involving Student/Industry Collaboration
source	SIGraDi 2009 - Proceedings of the 13th Congress of the Iberoamerican Society of Digital Graphics, Sao Paulo, Brazil, November 16-18, 2009
summary	Innovation through digital design in contemporary practice has led to completely new ways of designing and making architecture. To prepare for these innovative opportunities, students are turning to alternative skill sets than those traditionally gained in an architectural curriculum. This paper argues that we must reconstruct our architectural curricula in order to better prepare students for a shifting professional landscape. While current material-based production realities of translating digital design into built form have much in common with modernist traditions, exercises, sequences, and collaborative opportunities in schools should pass through a relevant lens examining the true potential of working with the information age.
keywords	Digital fabrication; informed architecture; total design through production; collaboration; industry partnership
series	SIGRADI
email
last changed	2016/03/10 09:54

_id	acadia16_140
id	acadia16_140
authors	Nejur, Andrei; Steinfeld, Kyle
year	2016
title	Ivy: Bringing a Weighted-Mesh Representations to Bear on Generative Architectural Design Applications
source	ACADIA // 2016: POSTHUMAN FRONTIERS: Data, Designers, and Cognitive Machines [Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-77095-5] Ann Arbor 27-29 October, 2016, pp. 140-151
doi	https://doi.org/10.52842/conf.acadia.2016.140
summary	Mesh segmentation has become an important and well-researched topic in computational geometry in recent years (Agathos et al. 2008). As a result, a number of new approaches have been developed that have led to innovations in a diverse set of problems in computer graphics (CG) (Sharmir 2008). Specifically, a range of effective methods for the division of a mesh have recently been proposed, including by K-means (Shlafman et al. 2002), graph cuts (Golovinskiy and Funkhouser 2008; Katz and Tal 2003), hierarchical clustering (Garland et al. 2001; Gelfand and Guibas 2004; Golovinskiy and Funkhouser 2008), primitive fitting (Athene et al. 2004), random walks (Lai et al.), core extraction (Katz et al.) tubular multi-scale analysis (Mortara et al. 2004), spectral clustering (Liu and Zhang 2004), and critical point analysis (Lin et al. 20070, all of which depend upon a weighted graph representation, typically the dual of a given mesh (Sharmir 2008). While these approaches have been proven effective within the narrowly defined domains of application for which they have been developed (Chen 2009), they have not been brought to bear on wider classes of problems in fields outside of CG, specifically on problems relevant to generative architectural design. Given the widespread use of meshes and the utility of segmentation in GAD, by surveying the relevant and recently matured approaches to mesh segmentation in CG that share a common representation of the mesh dual, this paper identifies and takes steps to address a heretofore unrealized transfer of technology that would resolve a missed opportunity for both subject areas. Meshes are often employed by architectural designers for purposes that are distinct from and present a unique set of requirements in relation to similar applications that have enjoyed more focused study in computer science. This paper presents a survey of similar applications, including thin-sheet fabrication (Mitani and Suzuki 2004), rendering optimization (Garland et al. 2001), 3D mesh compression (Taubin et al. 1998), morphin (Shapira et al. 2008) and mesh simplification (Kalvin and Taylor 1996), and distinguish the requirements of these applications from those presented by GAD, including non-refinement in advance of the constraining of mesh geometry to planar-quad faces, and the ability to address a diversity of mesh features that may or may not be preserved. Following this survey of existing approaches and unmet needs, the authors assert that if a generalized framework for working with graph representations of meshes is developed, allowing for the interactive adjustment of edge weights, then the recent developments in mesh segmentation may be better brought to bear on GAD problems. This paper presents work toward the development of just such a framework, implemented as a plug-in for the visual programming environment Grasshopper.
keywords	tool-building, design simulation, fabrication, computation, megalith
series	ACADIA
type	paper
email
last changed	2022/06/07 07:58

_id	caadria2009_091
id	caadria2009_091
authors	Pitts, Greg; Sambit Data
year	2009
title	Parametric Modelling of Architectural Surfaces
source	Proceedings of the 14th International Conference on Computer Aided Architectural Design Research in Asia / Yunlin (Taiwan) 22-25 April 2009, pp. 635-644
doi	https://doi.org/10.52842/conf.caadria.2009.635
summary	Parametric modelling is gaining in popularity as both a fabrication and design tool, but its application in the architectural design industry has not been widely explored. Parametric modelling has the ability to generate complex forms with intuitively reactive components, allowing designers to express and fabricate structures previously too laborious and geometrically complex to realise. This allows designers to address a project at both the macro and micro levels of resolution in the governing control surface and the individual repetitive component. This two level modelling control, of component and overall surface, can allow designers to explore new types of form generation subject to parametric constraints. Shading screens have been selected as the focus for this paper and are used as a medium to explore form generation within a given set of functional parameters. Screens can have many applications in a building but for the purpose of the following case studies, lighting quality and passive sun control are the main functional requirement. A set of screen components have been designed within certain shading parameters to create a generic component that can automatically adapt to any given climatic conditions. These will then be applied to surfaces of varying degrees of geometric complexity to be analysed in their ability to correctly tessellate and create a unified screening array true to the lighting requirements placed on the generic component.
keywords	Parametric Modelling: Screening; Design; Fabrication
series	CAADRIA
email
last changed	2022/06/07 08:00

_id	ijac20109201
id	ijac20109201
authors	Ramsgard Thomsen, Mette; Martin Tamke, Jacob Riiber Nielsen
year	2011
title	Generating a scalar logic: producing the "it's a SMALL world" exhibition
source	International Journal of Architectural Computing vol. 9 - no. 2, 115-132
summary	This paper presents the design project “it’s a SMALL world”, an exhibition design developed for the Danish Design Centre in 2009.The project investigates the making of a generative design environment by which multiple design parameters as from program, site or the subsequent digital fabrication and assembly process can be negotiated. In this paper we discuss methods for understanding the emergent interrelationships between encoded parameters, how to manage these and their impact on design.The implementation of the design necessitated a novel design method that allowed to blend the qualities of a generative design approach, that can adapt through recursion gradually to local requirements, with explicit definitions.The project showcases with its new developed manufacturing system for non- standard element how customized digital design and production tools allow for a novel nearness to material and new ways of production and collaboration of architects, engineers and the crafts.
series	journal
last changed	2019/05/24 09:55

_id	ascaad2009_emmanuel_ruffo
id	ascaad2009_emmanuel_ruffo
authors	Ruffo, Emmanuel
year	2009
title	Programming As an Evolutionary Concept for Architectural Education: From natural systems to computer science materialization to emergent and evolutionary embedded architectural design
source	Digitizing Architecture: Formalization and Content [4th International Conference Proceedings of the Arab Society for Computer Aided Architectural Design (ASCAAD 2009) / ISBN 978-99901-06-77-0], Manama (Kingdom of Bahrain), 11-12 May 2009, pp. 47-59
summary	Logic and evolution in ontogenetic processes for Architectural design was the title for a summer program taught at the Escuela de Arquitectura of the Universidad Anahuac from June to July 2008 in the State of Mexico, Mexico. Every single result in architectural design follows logical steps enclosed in the design processes. These logical processes evolve through space-time sequences in order to generate a diversity of possible solutions. In Biology an ontogenetic process refers to the development of an individual organism, anatomical or behavioral feature from the earliest stage to maturity. Following this development criteria students were encouraged to understand the main logics of natural and physical systems through the aid of computer programming. These logics must be understood as tridimensional geometries digitally generated. Right from the beginning all processes generated during the explorations and investigations had to be visualized as integral design performances. The integral design system must embedded structure, function, form and material capacities through the aid of computer programming, digital fabrication technologies and material assembling techniques. It is important to note that final prototypes had to demonstrate the diversity of capacities of the whole system in order to automate the components in evolution.
series	ASCAAD
email
last changed	2009/06/30 08:12

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