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	acadia13_137
id	acadia13_137
authors	Kretzer, Manuel; In, Jessica; Letkemann, Joel; Jaskiewicz, Tomasz
year	2013
title	Resinance: A (Smart) Material Ecology
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 137-146
doi	https://doi.org/10.52842/conf.acadia.2013.137
summary	What if we had materials that weren’t solid and static like traditional building materials are? What if these materials could dynamically change and adapt to varying environmental situations and stimulations and evolve and learn over time? What if they were autonomous, self-sufficient and independent but could communicate with each other and exchange information? What would this “living matter” mean for architecture and the way we perceive the built environment? This paper looks briefly at current concepts and investigations in regards to programmable matter that occupy various areas of architectural research. It then goes into detail in describing the most recent smart material installation “Resinance” that was supervised by Manuel Kretzer and Benjamin Dillenburger and realized by the 2012/13 Master of Advanced Studies class as part of the materiability research at the Chair for CAAD, ETH Zürich in March 2013. The highly speculative sculpture links approaches in generative design, digital fabrication, physical/ubiquitous computing, distributed networks, swarm behavior and agent-based communication with bioinspiration and organic simulation in a responsive entity that reacts to user input and adapts its behavior over time.
keywords	Smart Materials; Distributed Networks; Digital Fabrication; Physical Computing; Responsive Environment
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:51

_id	acadia13_199
id	acadia13_199
authors	Meyboom, AnnaLisa; Reeves, Dave
year	2013
title	Stigmergic Space
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 200-206
doi	https://doi.org/10.52842/conf.acadia.2013.200
summary	This paper presents a multi-agent approach to space planning. Using the algorithm as a primary design tool, it posits to model an active site of programmable collective intelligence—one that is able to inform its own development internally. The mechanisms of self-organization from ants, termites, slime molds and other social organisms are examined and adapted to solve spatial adjacencies amongst elements of a given programmatic brief. Spatial organization becomes the emergent product of a competitive ecology. The task of space planning, one that is typically carried out by a singular high-level decision-maker (the architect, is approached through the distributed decision-making of low-level collective intelligence. This approach facilitates the design of a problem with high levels of complexity and competing requirements.
keywords	agent-based, collective intelligence, parametric, stigmergy, cybernetic ecology
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:58

_id	acadia13_443
id	acadia13_443
authors	Shin, Jae-Won; Sabin, Jenny E.
year	2013
title	Tissue Architecture: Programmable Folding in Digital Responsive Skins
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 443-444
doi	https://doi.org/10.52842/conf.acadia.2013.443
summary	Biologically inspired responsive skins can be programmed by specific sequences of polymer materials with distinct mechanical properties arranged in an initial surface design. The surface then undergoes a series of reproducible, distinct global folding processes upon local stimulation.
keywords	emergent and self-organizing systems, biologically inspired architecture, responsive skins, morphogenetic architecture, programmable folding
series	ACADIA
type	Research Poster
email
last changed	2022/06/07 07:56

_id	caadria2013_030
id	caadria2013_030
authors	Adamantidis, Ermis; Madhav Kidao and Marios Tsiliakos
year	2013
title	Siphonophore – A Physical Computing Simulation of Colonial Intelligence Organisms
source	Open Systems: Proceedings of the 18th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2013) / Singapore 15-18 May 2013, pp. 355-364
doi	https://doi.org/10.52842/conf.caadria.2013.355
wos	WOS:000351496100035
summary	This paper sets out to document the procedural design and implementation of “Siphonophore” a multisensory digital ecology, mimicking colonial-ordered behaviour systems. The exploration of the notion of “self” in a complex system of highly integrated individuals with reference to the emergence of behaviours from the human-machine-context interaction, is engaged by this open system’s hierarchical articulation of electronics, Arduino boards, sensors and programming routines. User interaction and recorded statistics from the system’s core algorithm are assessed, in relation to the capacity of this prototype to provide an alternative methodology of describing collective intelligence, while presenting a non-standard perspective of body-space interaction and design as entertaining art. The overall impact is discussed in relation to the examined observations, towards a potential advancement to a system of superior contextual understanding.
keywords	Colonial intelligence, Multisensory installation, Physical computing, Spatial sensing, Human-machine interaction
series	CAADRIA
email
last changed	2022/06/07 07:54

_id	acadia13_281
id	acadia13_281
authors	Ahlquist, Sean; Menges, Achim
year	2013
title	Frameworks for Computational Design of Textile Micro-Architectures and Material Behavior in Forming Complex Force-Active Structures
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 281-292
doi	https://doi.org/10.52842/conf.acadia.2013.281
summary	Material behavior can be defined as the confluence of associative rules, contextual pressures and constraints of materialization. In more general terms, it can be parameterized as topologies, forces and materiality. Forming behavior means resolving the intricate matrix of deterministic and indeterministic factors that comprise and interrelate each subset of these material- nherent conditions. This requires a concise design framework which accumulates the confluent behavior through successive and cyclical exchange of multiple design modes, rather than through a single design environment or set of prescribed procedures. This paper unfolds a sequencing of individual methods as part of a larger design framework, described through the development of a series of complex hybrid- structure material morphologies. The “hybrid” nature reflects the integration of multiple force-active structural concepts within a single continuous material system, devising both self-organized yet highly articulated spatial conditions. This leads primarily to the development of what is termed a “textile hybrid” system: an equilibrium state of tensile surfaces and bending-active meshes. The research described in this paper looks to expose the structure of the textile as an indeterministic design parameter, where its architecture can be manipulated as means for exploring and differentiating behavior. This is done through experimentation with weft-knitting technologies, in which the variability of individual knit logics is instrumentalized for simultaneously articulating and structuring form. Such relationships are shown through an installation constructed at the ggggallery in Copenhagen, Denmark.
keywords	Material Behavior, Spring-based Simulation, CNC Knitting, Form- and Bending-Active, Textile Hybrid Structures.
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:54

_id	ecaade2013_111
id	ecaade2013_111
authors	Androutsopoulou, Eirini
year	2013
title	Urban Body Mutations through the Use of the Network Configuration
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. 275-281
doi	https://doi.org/10.52842/conf.ecaade.2013.1.275
wos	WOS:000340635300028
summary	Taking as a starting point the hypotheses that the urban body is a self-adapted ecology made of material and non-material components (Bateson, 1972), relationships between elements are examined in an attempt to destabilize the static division of matter and idea and to inquire into those relationships that determine the structural coupling (Maturana, 2002) between body and environment, as well as the constitution of the body itself. Contemporary technology is used in order to trace these alterations and the urban body is examined as a network configuration. The importance of the methodology adopted by the current research lies in the fact that social and economic factors merge with spatial characteristics, allowing for a visualization and re-interpretation of the urban body mutations based on self-adapted reconfigurations and for a prediction of the structural alterations made possible through the reconfiguration of the synaptic forces between elements.
keywords	Mutation; urban body; visualization techniques; network; data manipulation.
series	eCAADe
email
last changed	2022/06/07 07:54

_id	ecaade2013_023
id	ecaade2013_023
authors	Biloria, Nimish and Chang, Jia-Rey
year	2013
title	Hyper-Morphology
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. 529-537
doi	https://doi.org/10.52842/conf.ecaade.2013.1.529
wos	WOS:000340635300055
summary	Hyper-Morphology is an on-going research outlining a bottom-up evolutionary design process based on autonomous cellular building components. The research interfaces critical operational traits of the natural world (Evolutionary Development Biology, Embryology and Cellular Differentiation) with Evolutionary Computational techniques driven design methodologies. In the Hyper-Morphology research, genetic sequences are considered as sets of locally coded relational associations between multiple factors such as the amount of components, material based constraints, and geometric adaptation/degrees of freedom based adaptation abilities etc, which are embedded autonomously within each HyperCell component. Collective intelligence driven decision-making processes are intrinsic to the Hyper-Morphology logic for intelligently operating with autonomous componential systems (akin to swarm systems). This subsequently results in user and activity centric global morphology generation in real-time. Practically, the Hyper-Morphology research focuses on a 24/7 economy loop wherein real-time adaptive spatial usage interfaces with contemporary culture of flexible living within spatial constraints in a rapidly urbanizing world.
keywords	Evo-devo; cellular differentiation; self-organization; evolutionary computation; adaptive architecture.
series	eCAADe
email
last changed	2022/06/07 07:54

_id	acadia13_025
id	acadia13_025
authors	Cordero Maisonet, Sixto; Smith, Austin
year	2013
title	Responsive Expansion
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 25-32
doi	https://doi.org/10.52842/conf.acadia.2013.025
summary	Although commonly considered problematic within the wider range of standardized isotropic construction materials, wood’s mechanical deficiencies are simultaneously an asset for the adventurous designer. These anisotropic and organic characteristics can be critically investigated, even exaggerated, with the possibility of productively yielding a complex and adaptive building material.Given wood’s fibrous make-up, as derived from its ecological function as an evaporative capillary system, wood as a material is predisposed to react to environmental and contextual fluctuations—moisture in particular. As a consequence of its cellular and chemical anatomy, wood—unlike other standard construction materials—will morphologically react to changes in moisture. This reactivity is derived from interactions such as rehydration and swelling at the cellular level which accumulate to induce formal transformations at the macro level. This responsiveness, when coupled with the affordances of industrial standardization, reframes wood within architecture as a reactive material capable of consistent transformation well-suited to parametric definition within computational modeling.
keywords	Complex Systems: complex, adaptive, expansion, wood, material investigation, emergent and self-organizing systems
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:56

_id	caadria2013_256
id	caadria2013_256
authors	De Oliveira Barata, Eduardo; Dirk Anderson and Dagmar Reinhardt
year	2013
title	A Minimal Tension Canopy – Through Investigations of Self-Organised Systems
source	Open Systems: Proceedings of the 18th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2013) / Singapore 15-18 May 2013, pp. 147-156
doi	https://doi.org/10.52842/conf.caadria.2013.147
wos	WOS:000351496100015
summary	The dynamics of a physics-based algorithm which acquires its complex organization through a number of localised interactions applied over a prescribed network can be described as a self-organised system. This in turn has the capacity to define explicit form and space based upon behavioural computational processes with an embedded structural logic. This paper discusses the way in which physics based algorithms can be used to inform the organisation of a compressional structure in a case study. Its structure is based on Hooke’s law of elasticity; which establishes a three dimensional catenary logic through a number of localised interactions applied over an entire network. This is applied to a project with specific constraints to site, boundary conditions and maximising solar gain whilst maintaining structural rigidity. The methodological approach describes the design to assembly process in which the project has been developed. This includes the applied generative design tools in order to establish the self-organised logic, the form finding process, the techniques of design documentation, the fabrication process and the logistics of construction and assembly.
keywords	Digital fabrication and construction, Generative, Parametric, Simulation
series	CAADRIA
email
last changed	2022/06/07 07:55

_id	ecaade2013_192
id	ecaade2013_192
authors	Erdine, Elif
year	2013
title	Biomimetic Strategies in Tower Design
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. 559-568
doi	https://doi.org/10.52842/conf.ecaade.2013.1.559
wos	WOS:000340635300058
summary	The paper argues that the tower needs to respond to its environment by changing from a closed building typology towards a heterogeneous, differentiated open system that can adapt to the changing conditions within and around it. This argument is supported by focusing on the analogies and principles of specific biological examples in order to propose computationally-generated self-organizing systems. The goal of analyzing these models is to integrate their structural and geometrical characteristics with the aim of overcoming high lateral loading conditions in towers, as well as elaborating on the existence of multi-functionality and integration throughout the subsystems of the tower. A series of computational models which abstract the biological properties and articulate them with a generative approach through the use of agent-based systems are implemented according to designated evaluation criteria.
keywords	Tower; biomimetics; integration; differentiation; generative algorithms.
series	eCAADe
email
last changed	2022/06/07 07:55

_id	ecaade2013r_018
id	ecaade2013r_018
authors	Goyal, Akshay
year	2013
title	Field condition and the robotic urban landscapes
source	FUTURE TRADITIONS [1st eCAADe Regional International Workshop Proceedings / ISBN 978-989-8527-03-5], University of Porto, Faculty of Architecture (Portugal), 4-5 April 2013, pp. 217-228
summary	The paper explores the concept of the ‘field condition’ in recent urban discourse and its implication with respect to emerging technologies in the domains of robotics and AI. The author argues that the notion of ‘field condition’ as one of ‘loosely bound aggregates characterized by porosity and local interconnectivity defined not by overarching geometrical schemas but by intricate local connections’1, has inherent limitations in its contemporary manifestation. The paper then discusses the discourse of the field theory in architecture & urbanism in context with recent developments in swarm robotics, modular self reconfiguring robotic systems and distributed intelligence. Recent design proposals that explore the idea of the city informed by such technologies are also analyzed. The author then argues for a ‘Robotic Urban Landscape’ that builds on the notion of the field as a possibility in the near future. In such a theoretical construct the city consists of a field of ‘nomadic’ mobile technological artifacts that respond to a complex set of parameters and act as a collective whole. The ‘robotic field condition’ in this respect has both physical and virtual dimensions, is both machinic and biological, and has fuzzy binary condition, effectively dematerializing its identity as part of the larger whole. Such fields of mini robots, which collectively are able to perform complex task systems, get intrinsically linked to the city fabric and result in a new urban ecology. The impact on the urban condition as a result of these ‘robotic fields’ of loosely bound mobile artificial constructs that respond in the mathematical matrix of urban ecology and socio economic parameters, is also discussed. Lastly the author suggests a provocative likelihood of a ‘singularity’ moment in light of these developments and the need to relook at contemporary architectural discourse
keywords	Field theory, robotics, artificial intelligence, robotic ecology, emerging technology, emergent urbanism
email
last changed	2013/10/07 19:08

_id	caadria2013_217
id	caadria2013_217
authors	Kolodziej, Przemyslaw and Jozef Rak
year	2013
title	Responsive Building Envelope as a Material System of Autonomous Agents
source	Open Systems: Proceedings of the 18th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2013) / Singapore 15-18 May 2013, pp. 945-954
doi	https://doi.org/10.52842/conf.caadria.2013.945
wos	WOS:000351496100097
summary	The paper represents the concept of an abstract model of the Responsive Building Envelope (RBE), founded on pre-programmed material’s behaviour. The assumed model of the responsive building envelope is based on the idea of material autonomous agents that control default parameters of building’s energies like ventilation, humidity, light volume, radiation, temperature, etc., by materials’ geometry deformation. The agent is a material system, built with the Electroactive Polymers (EAPs) actuators which react to the environment’s fluctuations continuously and independently from other agents. The model of a responsive envelope is a cluster of self-reliant units which control the primary characteristic of the building environment in an analogous way to the homeostasis system of a living organism. By decentralization the system becomes more stable and reliable. The CFD simulation was created from the schematic model of the RBE’s performance to test the presented design concepts.
keywords	Responsive system, Autonomous agent, Electroactive Polymers (EAPs), Homeostatic cycle, CFD simulation
series	CAADRIA
email
last changed	2022/06/07 07:51

_id	ecaade2013_067
id	ecaade2013_067
authors	Kretzer, Manuel
year	2013
title	Information Materials
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. 615-623
doi	https://doi.org/10.52842/conf.ecaade.2013.1.615
wos	WOS:000340635300064
summary	This paper questions the current use of materials in architecture, which furthers the preference of surface and form over inherent material properties. It then investigates recent advancements towards the notion of a Digital Materiality, comparing various international research activities and approaches. It concludes with the potentials of Smart Materials for the creation of dynamic, adaptive spatial design. With a focus on the work of the Author it represents a number of projects that have been realized in this area within the past years and gives an insight in his recently established Materiability Research Network, a community platform that reveals Smart Materials, their properties and how to self-make them in an applied hands-on manner.
keywords	Smart materials; digital materiality; open source; do-it-yourself; adaptive architecture.
series	eCAADe
email
last changed	2022/06/07 07:51

_id	acadia13_421
id	acadia13_421
authors	Lee, Dave
year	2013
title	Self-Organizing Origami Structures
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 421-422
doi	https://doi.org/10.52842/conf.acadia.2013.421
summary	This research investigates the use of shape memory alloy to actuate the folding of origami patterns into stable structural formations.
keywords	Next Generation Technology, responsive, computation, programmable matter, origami, self-organization, kinetic
series	ACADIA
type	Research Poster
email
last changed	2022/06/07 07:51

_id	acadia13_319
id	acadia13_319
authors	Mehanna, Ryan
year	2013
title	Resilient Structures Through Machine Learning And Evolution
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 319-326
doi	https://doi.org/10.52842/conf.acadia.2013.319
summary	In the context of the growing usefulness of computation within architecture, structures face the potential for being conceived of as intelligent entities capable of resilient, adaptive behavior.Building on this idea, this work explores the use of machine learning for structures that may learn to autonomously “stand up”. The hypothesis is that a neural network with genetically optimized weights would be capable of teaching lightweight, flexible, and unanchored structures to self-rectify after falling, through their interactions with their environment. The experiment devises a physical and a simulated prototype. The machine-learning algorithm is implemented on the virtual model in a three-dimensional physics environment, and a solution emerges after a number of tests. The learned behavior is transferred to the physical prototype to test its performance in reality. This method succeeds in allowing the physical prototype to stand up. The findings of this process may have useful implications for developing embodied dynamic structures that are enabled with adaptive behavior.
keywords	complex systems, neural networks, genetic algorithms, actuated structures, particle-spring systems
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:58

_id	acadia13_439
id	acadia13_439
authors	PanahiKazemi, Lila; Rossi, Andrea
year	2013
title	Spatializing the Social: Computational strategies for integrated design in informal areas in Istanbul
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 439-440
doi	https://doi.org/10.52842/conf.acadia.2013.439
summary	This research proposes a set of architectural and urban strategies to deal with the issue of intervention in informal settlements, informed and empowered by the use of computational tools for modelling and simulation. The global aim is to find possible ways to integrate bottom-up self-construction processes with top-down planning regulations, creating an interface to generate and discuss developments between citizens and planners.
keywords	Social Forms; informal settlements; urban simulation; Istanbul; interactive planning; participative urbanism
series	ACADIA
type	Research Poster
email
last changed	2022/06/07 08:00

_id	ecaade2013r_014
id	ecaade2013r_014
authors	Sempere, Andrew; Savic, Selena; Huang, Jeffrey; Badura, Jens; Barchiesi, Alex
year	2013
title	Experience Catalysts and Architecture. Towards a new tradition
source	FUTURE TRADITIONS [1st eCAADe Regional International Workshop Proceedings / ISBN 978-989-8527-03-5], University of Porto, Faculty of Architecture (Portugal), 4-5 April 2013, pp. 171-182
summary	This paper describes two research projects in the field of interactive architecture, both examples of experience catalysts; Settings which allow new insights in the aesthetic constitution and perception of environments. This term can be thought of as somewhat synonymous with artistic intervention, but is used instead to recognize that the participants might not self-identify as artists. We are working with architectural notions of space and place, but are interested in the experience of place more than its formal structure. We wish to emphasize the dynamic and are interested in transitions not as the pauses between states but as destinations worth exploring. Quadricone by Selena Savic is an actual experience catalyst: a physical manifestation of a digital “material” (in this case network traffic.) The goal is less data visualization and more an attempt to understand what it means to physically experience something normally invisible. Inter-Actor by Andrew Sempere casts architecture as an ongoing event which might benefit from the flexibility of the digital. The idea is to create a combination of software and hardware that allows for “rapid prototyping” of interactive space. Inter-Actor is not an experience catalyst but a toolkit for creating them.
keywords	Interaction; Design; Flux; Experience Catalyst
email
last changed	2013/10/07 19:08

_id	acadia20_340
id	acadia20_340
authors	Soana, Valentina; Stedman, Harvey; Darekar, Durgesh; M. Pawar, Vijay; Stuart-Smith, Robert
year	2020
title	ELAbot
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. 340-349.
doi	https://doi.org/10.52842/conf.acadia.2020.1.340
summary	This paper presents the design, control system, and elastic behavior of ELAbot: a robotic bending active textile hybrid (BATH) structure that can self-form and transform. In BATH structures, equilibrium emerges from interaction between tensile (form active) and elastically bent (bending active) elements (Ahlquist and Menges 2013; Lienhard et al. 2012). The integration of a BATH structure with a robotic actuation system that controls global deformations enables the structure to self-deploy and achieve multiple three-dimensional states. Continuous elastic material actuation is embedded within an adaptive cyber-physical network, creating a novel robotic architectural system capable of behaving autonomously. State-of-the-art BATH research demonstrates their structural efficiency, aesthetic qualities, and potential for use in innovative architectural structures (Suzuki and Knippers 2018). Due to the lack of appropriate motor-control strategies that exert dynamic loading deformations safely over time, research in this field has focused predominantly on static structures. Given the complexity of controlling the material behavior of nonlinear kinetic elastic systems at an architectural scale, this research focuses on the development of a cyber-physical design framework where physical elastic behavior is integrated into a computational design process, allowing the control of large deformations. This enables the system to respond to conditions that could be difficult to predict in advance and to adapt to multiple circumstances. Within this framework, control values are computed through continuous negotiation between exteroceptive and interoceptive information, and user/designer interaction.
series	ACADIA
type	paper
email
last changed	2023/10/22 12:06

_id	acadia13_261
id	acadia13_261
authors	Tibbits, Skylar; Falvello, Ana
year	2013
title	BioMolecular, Chiral and Irregular Self-Assemblies
source	ACADIA 13: Adaptive Architecture [Proceedings of the 33rd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-1-926724-22-5] Cambridge 24-26 October, 2013), pp. 267-268
doi	https://doi.org/10.52842/conf.acadia.2013.267
summary	As disciplines converge and new capabilities are developed for programmable materials and self-assembly across length scales and industrial applications, designers will need new models for understanding the fundamental principles within this new paradigm. This paper outlines the key ingredients for self-assembly through a number of recent projects including the BioMolecular Self-Assembly and Chiral Self-Assembly projects. Further possibilities of non-deterministic self-assembly will be highlighted through asymmetrical units, nucleus models and hierarchical assemblies. Finally, opportunities for high-yield self-assembly and future applications for manufacturing and construction scenarios will be outlined. Self-assembly offers a glimpse into a future world of highly programmable, intelligent materials that promise far more adaptive, resilient and efficient built environments.
keywords	next generation technology, self-assembly, programmable materials, chirality, non-deterministic assembly
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:58

_id	ecaade2022_001
id	ecaade2022_001
authors	Pak, Burak, Wurzer, Gabriel and Stouffs, Rudi
year	2022
title	eCAADe 2022 Co-creating the Future: Inclusion in and through Design- Volume 2
source	Pak, B, Wurzer, G and Stouffs, R (eds.), Co-creating the Future: Inclusion in and through Design - Proceedings of the 40th Conference on Education and Research in Computer Aided Architectural Design in Europe (eCAADe 2022) - Volume 2, Ghent, 13-16 September 2022, 646 p.
doi	https://doi.org/10.52842/conf.ecaade.2022.2
summary	Spatial design is becoming an increasingly social, participatory and inclusive practice. In the last decade, ordinary people all around the world have started to claim a shaping power over the processes of urbanization; over the ways in which our cities are made and remade (Harvey, 2013). There has been a resurgence in the number of do-it-yourself cooperatives initiated by non-designer citizens, activists, artists and designers. In parallel to these developments, a plethora of social technologies, tools and platforms have been developed to include a variety of stakeholders in the architectural design, urban design, planning and decision-making processes. Crowdsourcing and crowdfunding applications started to be widely used to tap into the wisdom of the crowd. Novel developments in parametric design and digital fabrication created possibilities for user participation in the making of customized and highly diversified products. With the combination of artificial intelligence and the Internet of Things, smart buildings, autonomous devices, robots and software started to transform into agents and active participants. The attempts to harness collective human and artificial intelligence opened up new avenues for combining practice, research and education. On the other hand, there is a growing concern over the possible negative impact of the digital devices, tools, platforms and agents integrated in the making of our buildings and cities, public, private and collective spaces. Examples of those are the potential exclusion of vulnerable and disadvantaged citizens, transfer of citizen power to the corporations, privatization of personal life and data, as well as spatial exclusion through increased technological control and surveillance.
keywords	Proceedings, Front Matter
series	eCAADe
email
last changed	2024/04/22 07:10

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