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	acadia15_497
id	acadia15_497
authors	Sandoval Olascoaga, Carlos; Victor-Faichney, John
year	2015
title	Flows, Bits, Relationships: Construction of Deep Spatial Understanding
doi	https://doi.org/10.52842/conf.acadia.2015.497
source	ACADIA 2105: Computational Ecologies: Design in the Anthropocene [Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-53726-8] Cincinnati 19-25 October, 2015), pp. 497-512
summary	The number of variables acting upon urban landscapes is numerous and interconnected, closely resembling complex systems in constant dynamic transformation. Current analytical methods and descriptions of the city are domain specific, limited in scope, and discretize the city into quantifiable individual representations, resulting in an equally limited urban policy and design. If we are to produce urban systems capable of contributing to the robustness and resiliency of cities, we ought to understand and represent the comprehensive network of actors that construct contemporary urban landscapes. On one hand, the natural sciences approach the analysis of complex systems by primarily focusing on the development of models capable of describing their stochastic formation, remaining agnostic to the contextual properties of their individual components and oftentimes discretizing the otherwise continuous relationships among parts. signers work in groups. They need to share information either synchronously or asynchronously as they work with parametric modeling software, as with all computer-aided design tools. Receiving information from collaborators while working may intrude on their work and thought processes. Little research exists on how the reception of design updates influences designers in their work. Nor do we know much about designer preferences for collaboration. In this paper, we examine how sharing and receiving design updates affects designers’ performances and preferences. We present a system prototype to share changes on demand or in continuous mode while performing design tasks. A pilot study measuring the preferences of nine pairs of designers for different combinations of control modes and design tasks shows statistically significant differences between the task types and control modes. The types of tasks affect the preferences of users to the types of control modes. In an apparent contradiction, user preference of control modes contradicts task performance time.
keywords	Networks, graphs, web-mapping, GIS, urban mapping, spatial analysis, urban databases, visual representation, spatial cognition
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:56

_id	acadia15_431
id	acadia15_431
authors	Winn; Kelly
year	2015
title	Transient Thermal Exchange and Developmental Form for Tactile Surfaces
doi	https://doi.org/10.52842/conf.acadia.2015.431
source	ACADIA 2105: Computational Ecologies: Design in the Anthropocene [Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-53726-8] Cincinnati 19-25 October, 2015), pp. 431-441
summary	The idea of an emergent or generative form based on repeating rules of development borrowed from the field of developmental biology has provided fertile ground for inspiration for architectural theory and computational design. With simple constraints developed iteratively, complex geometry and form generation can be distilled down to a list of developmental rules or functions in order to deterministically generate form. The ideas and illustrations of naturalists on organic form and developmental biology leading back to the turn of the 20th c., such as the work of D'arcy Wentworth Thompson and Ernst Haeckel, have inspired architects from Louis Sullivan all the way to contemporary generative design. This study revisits this design tradition of biomimetic geometries based on deterministic rules for the iterative development of forms based on biological analogs and models for growth. A series of semi-regular compound patterns were developed using parametric modeling and iterative rules. These geometries were then applied to surface topologies as a decorative tactile embellishment resulting in complex thermodynamic conditions. A series of physical prototypes where then developed with different high-relief patterns and pattern densities. Positive prototype geometries were then produced using stereolithography for casting plaster molds for the production molding of finished ceramic pieces for thermal analysis using digital thermography. By studying the performance of these complex geometries as physical prototypes under controlled experimentation, high-relief surfaces and the resulting thermodynamic conditions can be understood not just qualitative experience, but also quantitatively through measured performance metrics and innovative tools for analytical analysis.
keywords	Tactile surfaces, developmental biology, biomimicry, l-systems, ceramic materials, heat transfer, thermography, ergonomics
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:57

_id	ijac201513204
id	ijac201513204
authors	Cupkova, Dana and Nicolas Azel
year	2015
title	Mass Regimes: Geometric Actuation of Thermal Behavior
source	International Journal of Architectural Computing vol. 13 - no. 2, 169-194
summary	The Mass Regimes is a research project that investigates the effect of complex geometry on processes of passive heat distribution in thermal mass systems. In the context of systems thinking, this research intends to instrumentalize design principles that engage a wider range of design tactics for choreographing thermal gradients between buildings and their environment. Research for this project has brought about a deeper understanding of how specific geometric manipulations of surface area over the same mass (Figure 1) affect the rate of thermal transfer. Leveraging physical simulations of geometric populations, along with current computational and design tools, the project sheds light on performative trends that may enhance creative design explorations in the use of passive systems. Preliminary analysis of varied geometric populations suggest an exciting trend and the possibility for a more synthetic incorporation of morphology, one in which surface geometry can be passively utilized to generate effects with more fidelity over the pace of thermal absorption and the release of sensible heat.
series	journal
last changed	2019/05/24 09:55

_id	ecaade2015_53
id	ecaade2015_53
authors	Duro-Royo, Jorge; Mogas-Soldevila, Laia and Oxman, Neri
year	2015
title	Physical Feedback Workflows in Fabrication Information Modeling (FIM) - Analysis and Discussion of Exemplar Cases across Media, Disciplines and Scales
doi	https://doi.org/10.52842/conf.ecaade.2015.2.299
source	Martens, B, Wurzer, G, Grasl T, Lorenz, WE and Schaffranek, R (eds.), Real Time - Proceedings of the 33rd eCAADe Conference - Volume 2, Vienna University of Technology, Vienna, Austria, 16-18 September 2015, pp. 299-307
summary	Novel digital fabrication platforms enable the design and construction of materially sophisticated structures with high spatial resolution in manufacturing. However, virtual-to-physical workflows and their associated software environments are yet to incorporate such capabilities. Our research sets the stage for seamless physical feedback workflows across media, disciplines and scales. We have coined the term Fabrication Information Modeling (FIM) to describe this approach. As preliminary methods we have developed four computational strategies for the design and digital construction of custom systems. These methods are presented in the context of specific design challenges and include a biologically driven fiber construction algorithm; an anatomically driven shell-to-wearable translation protocol; an environmentally-driven swarm printing system; and a manufacturing-driven hierarchical fabrication platform. We discuss and analyze these four challenges in terms of their capabilities to integrate design across media, disciplines and scales through concepts such as multi-dimensionality, media-informed computation and trans-disciplinary data.
wos	WOS:000372316000035
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=e41927e2-6fe7-11e5-a181-5b730dc456c4
last changed	2022/06/07 07:55

_id	ecaade2015_172
id	ecaade2015_172
authors	Mark, Earl and Zita Ultmann
year	2015
title	Environmental Footprint Design Tool - Exchanging GIS and CAD Data in Real Time
doi	https://doi.org/10.52842/conf.ecaade.2015.1.217
source	Martens, B, Wurzer, G, Grasl T, Lorenz, WE and Schaffranek, R (eds.), Real Time - Proceedings of the 33rd eCAADe Conference - Volume 1, Vienna University of Technology, Vienna, Austria, 16-18 September 2015, pp. 217-223
summary	The pairing of CAD and GIS data creates an opportunity to connect an architectural design process more immediately with its environmental constraints. Yet the GIS data may be too overwhelmingly complex to be fully used in CAD without computer-assisted methods of highlighting relevant information. This paper reports on the implementation of an integrated environment for three-dimensional design geometrical modeling and obtaining environmental impact feedback. The project focused on enhancements to the data exchange and on the development of a related set of tools. While the technologies of CAD and GIS may rely on separate representational models,in combination they can provide a more complete view of the built and natural environment. The challenge in integration is that of bridging analytical methods and database formats used in the two technologies. Our approach is rooted in part in constraint based design methods well established in CAD (e.g., Sketchpad, Generative Components, CATIA). Within such CAD systems geometrical transformations may be intentionally constrained to help enforce some previously made design decisions. Although this current implementation modestly relates to geometrical constraints, the use of probabilistic risk values is more central to its methodology.
wos	WOS:000372317300023
series	eCAADe
email
last changed	2022/06/07 07:59

_id	sigradi2015_8.328
id	sigradi2015_8.328
authors	Mueller, Volker
year	2015
title	Learning about Parametric Model Behavior through Multi-Objective Optimization
source	SIGRADI 2015 [Proceedings of the 19th Conference of the Iberoamerican Society of Digital Graphics - vol. 1 - ISBN: 978-85-8039-135-0] Florianópolis, SC, Brasil 23-27 November 2015, pp. 405-413.
summary	This paper reports about a design process as a case study illustrating different levels of learning that seem required for successful computational design. The learning process occurred during a two-day workshop about parametric design with integrated analysis and multi-objective optimization. First, the design team needs to understand the behavior of the model in order to validate that the model behaves in a way that actually conforms with the project goals; second, the design team needs to learn about potential trade- offs between different project goals, and thus understand the decisions that need to be made, or the additional problems that need to be solved in order to arrive at a better design solution.
keywords	Simulation and Modeling, Generative Systems, Parametric Design Multi-objective Optimization, Computational Design Learning
series	SIGRADI
email
last changed	2016/03/10 09:55

_id	sigradi2015_11.136
id	sigradi2015_11.136
authors	Gomes, Ana Catarina Costa; Paio, Alexandra
year	2015
title	Generative Solutions: Adaptation and Flexibilization in Housing as a Qualified Social Response
source	SIGRADI 2015 [Proceedings of the 19th Conference of the Iberoamerican Society of Digital Graphics - vol. 2 - ISBN: 978-85-8039-133-6] Florianópolis, SC, Brasil 23-27 November 2015, pp. 642-648.
summary	Housing for all is back on the international agenda. The economic crisis forces researchers and architects to rethink the concept of living and adopt more flexible housing design strategies as an alternative to typologies that impose rules of coexistence and do not reflect the social dynamics of a community. The introduction of rules-based housing design strategies allows the implementation of more dynamic processes. This ongoing research is a reflection on the potential of digital tools to develop spatial and formal parameters based on analysis of flexible housing models. This paper presents the initial phase of the research.
keywords	Adaptive and Evolutionary Housing, Social Dynamics, Digital Tools
series	SIGRADI
email
last changed	2016/03/10 09:52

_id	cf2015_239
id	cf2015_239
authors	Maia, Sara Costa and Meyboom, AnnaLisa
year	2015
title	Interrogating interactive and responsive architecture: The quest of a technological solution looking for an architectural problem
source	The next city - New technologies and the future of the built environment [16th International Conference CAAD Futures 2015. Sao Paulo, July 8-10, 2015. Electronic Proceedings/ ISBN 978-85-85783-53-2] Sao Paulo, Brazil, July 8-10, 2015, pp. 239.
summary	Interactive Architecture and Responsive Architecture are provocative fields of investigation and have potentially disruptive and far reaching effects for architecture. However it can be argued that these fields haven’t been developed as a direct response to previously identified architectural demands. Instead, they have risen as consequence of new technology availability, with ad hoc discussions in the context of the built environment. In order to test this hypothesis, 229 publications were examined and narrowed down to 77 papers and 41 design projects, which were systematically analyzed. The primary objective of this investigation is to understand Interactive Architecture’s development with regard to justification. This understanding provides us with the basis to speculate on the possibly expanding introduction of extraneous technological solutions to the discipline of architecture. The research findings indicate a mismatch between theoretical discourse and projects being developed in those fields. They also describe the current state of Interactive Architecture research.
keywords	Interactive Architecture, Responsive Architecture, Literature Analysis, Design Projects Analysis.
series	CAAD Futures
email
last changed	2015/06/29 07:55

_id	sigradi2015_11.392
id	sigradi2015_11.392
authors	Pinto, Yuri Assis; Pupo, Regiane
year	2015
title	Exploring algorithmic design: A study about Grasshopper
source	SIGRADI 2015 [Proceedings of the 19th Conference of the Iberoamerican Society of Digital Graphics - vol. 2 - ISBN: 978-85-8039-133-6] Florianópolis, SC, Brasil 23-27 November 2015, pp. 686-690.
summary	The current research explores the experience of introduction of algorithmic design associated with digital fabrication, for an audience of architecture and design students without any previous knwoledge in the field. Aiming the discussion and aplicabillity of the algoritghmic design it was created a workshop titled “Introduction to parametric design”, for graduate and pos graduate students at the Federal University of Santa Catarina. In this workshop was explored the aplicabilities of the parametric design in the field of academic research, ending with the use of digital fabrication methods.
keywords	Parametric Design, Grasshopper, Generative Systems, Digital Technology
series	SIGRADI
email
last changed	2016/03/10 09:57

_id	sigradi2015_8.47
id	sigradi2015_8.47
authors	Romcy, Neliza Maria e Silva; Tinoco, Marcelo Bezerra de Melo
year	2015
title	Investigations into interfaces between parametric modeling and other representation tools in architectural design
source	SIGRADI 2015 [Proceedings of the 19th Conference of the Iberoamerican Society of Digital Graphics - vol. 1 - ISBN: 978-85-8039-135-0] Florianópolis, SC, Brasil 23-27 November 2015, pp. 322-327.
summary	Researches about different processes of representation in architectural design allows the acknowledgment about their specificities regarding to potential and limitations. This study aims to investigate the possible interfaces between parametric modeling and other representation media, in order to understand its introduction into design process and its integration with other tools. The methodology consist of literature review to select different media, including sketching, architectural model, BIM and computer-aided manufacturing. As a result, the study identified which processes would be able to assist parametric modeling and suggested possible interfaces between the presented tools.
series	SIGRADI
email
last changed	2016/03/10 09:59

_id	ecaade2015_237
id	ecaade2015_237
authors	Vrouwe, Ivo; Luyten, Laurens and Pak, Burak
year	2015
title	Teaching and Learning CAAD and CAM in a Fluid Era - Tools and Strategies for the Analysis and Synthesis of Ill-Defined Construction Problems
doi	https://doi.org/10.52842/conf.ecaade.2015.2.119
source	Martens, B, Wurzer, G, Grasl T, Lorenz, WE and Schaffranek, R (eds.), Real Time - Proceedings of the 33rd eCAADe Conference - Volume 2, Vienna University of Technology, Vienna, Austria, 16-18 September 2015, pp. 119-126
summary	In this paper we discuss a series of tools and strategies to support learner-centred construction education in the complexity of the era today (Bauman, 2000). By using these tools in the education of CAD and CAM in construction education at universities for the arts, design and architecture, we aim to support the student in the abstract aspects of Bloom's (1956) cognitive learning domain. In order to present a coherent spectrum of educational tools and strategies, we start with the introduction of a tool for problem-analysis. The tool is explained by applying it to the context of spatial design construction, digital design and fabrication. Then we shortly discuss the process of design-evaluation. Next we introduce three models for design-synthesis. Afterwards, a test case is used to elaborate on the different tools and strategies which are tested and evaluated.
wos	WOS:000372316000015
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=d75a9f02-6f80-11e5-bc83-9bf4aa35f970
last changed	2022/06/07 07:58

_id	cf2015_279
id	cf2015_279
authors	Abdelmohsen, Sherif M. and Massoud, Passaint M.
year	2015
title	Making Sense of those Batteries and Wires: Parametric Design between Emergence and Autonomy
source	The next city - New technologies and the future of the built environment [16th International Conference CAAD Futures 2015. Sao Paulo, July 8-10, 2015. Electronic Proceedings/ ISBN 978-85-85783-53-2] Sao Paulo, Brazil, July 8-10, 2015, pp. 279-296.
summary	This paper reports on the process and outcomes of a digital design studio that integrates parametric design and generative systems in architectural and urban design projects. It explores the interrelationship between the emergence of innovative formal representations using parametric design systems on the one hand, and design autonomy; more specifically the conscious process of generating and developing an architectural concept, on the other. Groups of undergraduate students working on an architectural project are asked to identify a specific conceptual parti that addresses an aspect of architectural quality, define strategies that satisfy those aspects, and computational methodologies to implement those strategies, such as rule-based systems, self-organization systems, and genetic algorithms. The paper describes the educational approach and studio outcomes, discusses implications for CAAD education and curricula, and addresses issues to be considered for parametric and generative software development.
keywords	Parametric modeling, generative design, emergence, autonomy, design exploration, CAAD curriculum.
series	CAAD Futures
email
last changed	2015/06/29 07:55

_id	acadia15_263
id	acadia15_263
authors	Ahlquist, Sean
year	2015
title	Social Sensory Architectures: Articulating Textile Hybrid Structures for Multi-Sensory Responsiveness and Collaborative Play
doi	https://doi.org/10.52842/conf.acadia.2015.263
source	ACADIA 2105: Computational Ecologies: Design in the Anthropocene [Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-53726-8] Cincinnati 19-25 October, 2015), pp. 263-273
summary	This paper describes the development of the StretchPLAY prototype as a part of the Social Sensory Surfaces research project, focusing on the design of tactile and responsive environments for children with Autism Spectrum Disorder (ASD). The project is directed specifically at issues with sensory processing, the inability of the nervous system to filter sensory input in order to indicate an appropriate response. This can be referred to as a “traffic jam” of sensory data where the intensity of such unfiltered information leads to an over-intensified sensory experience, and ultimately a dis-regulated state. To create a sensory regulating environments, a tactile structure is developed integrating physical, visual and auditory feedback. The structure is defined as a textile hybrid system integrating a seamless knitted textile to form a continuous topologically complex surface. Advancements in the fabrication of the boundary structure, of glass-fiber reinforced rods, enable the form to be more robustly structured than previous examples of textile hybrid or tent-like structures. The tensioned textile is activated as a tangible interface where sensing of touch and pressure on the surface triggers ranges of visual and auditory response. A specific child, a five-year old girl with ASD, is studied in order to tailor the technologies as a response to her sensory challenges. This project is a collaboration with students, researchers and faculty in the fields of architecture, computer science, information (human-computer interaction), music and civil engineering, along with practitioners in the field of ASD-based therapies.
keywords	Textile Hybrid, Knitting, Sensory Environment, Tangible Interface, Responsive systems and environments
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	cf2015_485
id	cf2015_485
authors	Anaf, Márcia and Harris, Ana Lúcia Nogueira de Camargo
year	2015
title	The geometry of Chuck Hoberman as the basis for the development of dynamic experimental structures
source	The next city - New technologies and the future of the built environment [16th International Conference CAAD Futures 2015. Sao Paulo, July 8-10, 2015. Electronic Proceedings/ ISBN 978-85-85783-53-2] Sao Paulo, Brazil, July 8-10, 2015, pp. 485.
summary	The cognitive-theoretical foundation referring to teach drawing as a way of thinking, as well as the construction of the environment by means of drawing using transforming geometries and the formal and para-formal computational process, creating unusual geometries through generative design processes and methodologies, can be seen as some of the main possibilities in exploring dynamic experimental structures for an Adaptive Architecture. This article presents the development of a model for articulated facades, inspired by Hoberman´s Tessellates, and his Adaptive Building Initiative (ABI) project to develop facades models that respond in real time to environmental changes. In addition, we describe an experiment based on the retractable structures, inspired by Hoberman´s work and experimentations. Solutions for responsive facades can offer more flexible architectural solutions providing better use of natural light and contributing to saving energy. Using Rhinoceros and the Grasshopper for modeling and test the responsiveness, the parametric model was created to simulate geometric panels of hexagonal grids that would open and close in reaction to translational motion effects, regulating the amount of light that reaches the building.
keywords	Parametric architecture, Hoberman´s Tessellates, Adaptive Building Initiative (ABI), Articulated Facades, Complex Geometries, Retractable structures, Retractable polyhedra.
series	CAAD Futures
email
last changed	2015/06/29 07:55

_id	ecaade2015_87
id	ecaade2015_87
authors	Angelova, Desislava; Dierichs, Karola and Menges, Achim
year	2015
title	Graded Light in Aggregate Structures - Modulating the daylight in designed granular systems using online controlled robotic processes
doi	https://doi.org/10.52842/conf.ecaade.2015.2.399
source	Martens, B, Wurzer, G, Grasl T, Lorenz, WE and Schaffranek, R (eds.), Real Time - Proceedings of the 33rd eCAADe Conference - Volume 2, Vienna University of Technology, Vienna, Austria, 16-18 September 2015, pp. 399-406
summary	The research project proposes an online-controlled robotic process that allows for grading light in aggregate structures using photometric analysis. It investigates the potential of designing specific daylight qualities through the behaviour-based robotic fabrication of the aggregate system. Two key methods are developed: the digital fabrication of the structure and a photometric analysis technique which is used as a sensor input for the robotic sensory interface. In its first part, the paper presents a series of photometric experiments on aggregate wall- and dome-structures. In its second part, the focus is laid on robotic manufacturing of these aggregate structures and the interactive fabrication of specific light conditions. To conclude further areas of research into emergent design processes with aggregates are outlined.
wos	WOS:000372316000046
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=4161e07e-6fe8-11e5-baaf-1fc96b3e1b94
last changed	2022/06/07 07:54

_id	sigradi2015_13.316
id	sigradi2015_13.316
authors	Ariza, Inés; Gazit, Merav
year	2015
title	On-site Robotic Assembly of Double-curved Self-supporting Structures
source	SIGRADI 2015 [Proceedings of the 19th Conference of the Iberoamerican Society of Digital Graphics - vol. 2 - ISBN: 978-85-8039-133-6] Florianópolis, SC, Brasil 23-27 November 2015, pp. 746-753.
summary	Robotic assembly of architectural structures has been an area of research for a few decades. Yet, current methods impose a large number of constraints on the geometry of those structures. In this paper we introduce a method for robotic assembly that enables the construction of double curved self-supporting structures. Latest research challenges have focused on the assembly of sophisticated brick structures and on sensor feedback systems for handling accuracy. We propose an alternative strategy to tackle tolerance handling in complex structures that rely on geometry. The intelligence of the system lies in two main aspects: a subdivision technique that incorporates the robot’s constraints as well as the structural equilibrium of the structure during each step of assembly, in order to omit the use of scaffolding; and a match between geometric information and the robot’s movements in a robot programming environment. As a proof of concept, we fabricated a portion of a full-scale double-curved structure. The structure was assembled without scaffolding by a portable KUKA KR10 on a randomly picked site. This project aims to demonstrate an easy and simple method for robotic assembly that enables the realization of digitally generated complex geometries as concrete complex structures.
keywords	Robotic Assembly, Self-supporting Structure, On-site Assembly, Double Curvature, Construction Tolerances
series	SIGRADI
email
last changed	2016/03/10 09:47

_id	acadia15_357
id	acadia15_357
authors	Ashour, Yassin; Kolarevic, Branko
year	2015
title	Heuristic Optimization in Design
doi	https://doi.org/10.52842/conf.acadia.2015.357
source	ACADIA 2105: Computational Ecologies: Design in the Anthropocene [Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-53726-8] Cincinnati 19-25 October, 2015), pp. 357-369
summary	This paper presents a workflow called the ‘heuristic optimization workflow’ that integrates Octopus, a Multi-Objective Optimization (MOO) engine with Grasshopper3D, a parametric modeling tool, and multiple simulation software. It describes a process that enables the designer to integrate disparate domains via Octopus and complete a feedback loop with the developed interactive, real-time visualization tools. A retrospective design of the Bow Tower in Calgary is used as a test case to study the impact of the developed workflow and tools, as well as the impact of MOO on the performance of the solutions. The overall workflow makes MOO based results more accessible to designers and encourages a more interactive ‘heuristic’ exploration of various geometric and topological trajectories. The workflow also reduces design decision uncertainty and design cycle latency through the incorporation of a feedback loop between geometric models and their associated quantitative data. It is through the juxtaposition of extreme performing solutions that serendipity is created and the potential for better multiple performing solutions is increased.es responsive systems, which focus on the implementation of multi-objective adaptive design prototypes from sensored environments. The intention of the work is to investigate multi-objective criteria both as a material system and as a processing system by creating prototypes with structural integrity, where the thermal energy flow through the prototype, to be understood as a membrane, can be controlled and the visual transparency altered. The work shows performance based feedback systems and physical prototype models driven by information streaming, screening, and application.
keywords	Multi-Objective Optimization, Generative Design, Performance-Based Design
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	acadia15_123
id	acadia15_123
authors	Askarinejad, Ali; Chaaraoui, Rizkallah
year	2015
title	Spatial Nets: the Computational and Material Study of Reticular Geometries
doi	https://doi.org/10.52842/conf.acadia.2015.123
source	ACADIA 2105: Computational Ecologies: Design in the Anthropocene [Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-53726-8] Cincinnati 19-25 October, 2015), pp. 123-135
summary	Reticular systems are in many aspects a distinct taxonomy of volumetric geometries. In comparison with the conventional embodiment of a ‘volume’ that encapsulates a certain quantity of space with a shell reticular geometries emerge from the accumulation of micro elements to define a gradient of space. Observed in biological systems, such structures result from their material properties and formation processes as well as often ‘simple’ axioms that produce complex results. In micro or macro levels, from forest tree canopies to plant cell walls these porous volumes are not shaped to have a singular ‘solution’ for a purpose; they provide the fundamental geometric characteristics of a ‘line cloud’ that is simultaneously flexible in response to its environment, porous to other systems (light, air, liquids) and less susceptible to critical damage. The porosity of such systems and their volumetric depth also result in kinetic spatial qualities in a 4D architectural space. Built upon a ‘weaving’ organization and the high performance material properties of carbon fiber composite, this research focuses on a formal grammar that initiates the complex system of a reticular volume. A finite ‘lexical’ axiom is consisted of the basic characters of H, M and L responding to the anchor points on the highest, medium and lower levels of the extruding loom. The genome thus produces a string of data that in the second phase of programming are assigned to 624 points on the loom. The code aims to distribute the nodes across the flat line cloud and organize the sequence for the purpose of overlapping the tensioned strings. The virtually infinite results are then assessed through an evolutionary solver for confining an array of favorable results that can be then selected from by the designer. This research focuses on an approximate control over the fundamental geometric characteristics of a reticular system such as node density and directionality. The proposal frames the favorable result of the weave to be three-dimensional and volumetric – avoiding distinctly linear or surface formations.
keywords	Reticular Geometries, Weaving, Line Clouds, Three-dimensional Form-finding, Carbon fiber, Prepreg composite, Volumetric loom, Fiberous Materials, Weaving fabrication, Formal Language, Lexical design, Evolutionary solver
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	sigradi2015_11.34
id	sigradi2015_11.34
authors	Bacinoglu, Saadet Zeynep
year	2015
title	From material to material with new abilities. Performative Skin: an unfinished product derived through the organizational logic as developed through research on ‘movement’
source	SIGRADI 2015 [Proceedings of the 19th Conference of the Iberoamerican Society of Digital Graphics - vol. 2 - ISBN: 978-85-8039-133-6] Florianópolis, SC, Brasil 23-27 November 2015, pp. 631-636.
summary	This paper presents the process and products from research on ‘a movement behavior’, transforming the initial surface from one state to other states. The study developed an initial model of material organization inspired by nature: the adaptable exoskeleton of the armadillium vulgare. Through geometric analysis of functional variation in the exoskeleton’s unit shape, and physical model making, the underlying principle is translated into design & production rules. The generative model of ‘an adaptable segmented system’ is constructed through a geometric abstraction of the exoskeleton, achieving diverse functions such as variability in form, volume, porosity, flexibility and strength, through a distribution of ‘material geometry’ with the folding technique. The potentiality of this parametric physical model (based on simple systematicity) is questioned in relation to diverse situations that result in complex surface adaptations. This research shows the formulation of a design intention.
keywords	Digital Craft, Folding, Material Computation, Informed Matter
series	SIGRADI
email
last changed	2016/03/10 09:47

_id	acadia15_195
id	acadia15_195
authors	Belesky, Philip; Monacella, Rosalea; Burry, Mark; Burry, Jane
year	2015
title	A Field in Flux: Exploring the Application of Computational Design Techniques to Landscape Architectural Design Problems
doi	https://doi.org/10.52842/conf.acadia.2015.195
source	ACADIA 2105: Computational Ecologies: Design in the Anthropocene [Proceedings of the 35th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-692-53726-8] Cincinnati 19-25 October, 2015), pp. 195-202
summary	Landscape architectural design problems are under-served by the current canon of computational design techniques. More investigations into modeling landscape phenomena would improve the capabilities of designers working in this field. This paper introduces some of the problems specific to the intersection of computational design and landscape architecture through a case study in generating planting plans using parametric techniques. This illustrates issues of temporality, complexity, and dynamism that distinguish land form from built form alongside the opportunities and challenges found in adapting computation to the design of natural systems.
keywords	Landscape modeling, ecological modeling, landscape architecture, systems design, environmental simulation
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

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