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_161
id	acadia15_161
authors	Baharlou, Ehsan; Menges, Achim
year	2015
title	Toward a Behavioral Design System: An Agent-Based Approach for Polygonal Surfaces Structures
doi	https://doi.org/10.52842/conf.acadia.2015.161
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. 161-172
summary	The following research investigates the development of an agent-based design method as an integrative design tool for polygonal surface structures. The aim of this research is to develop a computational tool that self-organizes the emergence of polygonal surface structures from interaction between its constitutive lattices. This research focuses on the ethological level of morphogenesis that is relevant to the animal or insect societies, whereby agents mediate the material organizations with environmental aspects. Meanwhile, behavior-based approaches are investigated as a bottom-up system to develop a computational framework in which the lower-level features constantly interact. The lower-level features such as material properties (e.g., geometric descriptions) are abstracted into building blocks or agents to construct the agent’s morphology. The abstracted principles, which define the agent’s morphology, are aggregated into a generative tool to explore the emergent complexities. This exploration coupled with the generative constraint mechanisms steers the collective agents system toward the cloud of solutions; hence, the collective behaviors of agents constitute the polygonal surface structures. This polygonal system is a bottom up approach of developing the complex surface that emerges through topological and topographical interaction between cells and their surrounding environment. Subsequently, the integrative system is developed through agent-based parametric modelling, in which the knowledge-based system as a top-down approach is substituted with the agent system together with its morphological features and significant behaviors.
keywords	Agent-Based System, Behavioral-Based System, Polygonal Surface Structures, Self-Organization and Emergence
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	acadia19_234
id	acadia19_234
authors	Grewal, Neil; Escallon, Miguel; Chaudhary, Abhinav; Hramyka, Alina
year	2019
title	INFRASONIC
doi	https://doi.org/10.52842/conf.acadia.2019.234
source	ACADIA 19:UBIQUITY AND AUTONOMY [Proceedings of the 39th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-578-59179-7] (The University of Texas at Austin School of Architecture, Austin, Texas 21-26 October, 2019) pp. 234-245
summary	In 2015, an earthquake of 7.8 magnitude displaced over 6.6 million people in Kathmandu, Nepal. Three years later, the country continues in its struggle to rebuild its capital. The aim of this study is to investigate a construction system, produced from locally sourced materials, that can aggregate and deploy as self-built, habitable infrastructure. The study focused on the relationship between material resonance, earthquake resistant structures, and fabrication strategies. An agent-based form-finding algorithm was developed using knowledge acquired through physical prototyping of mycelium-based composites to generate earthquake resistant geometries, optimize material usage, and enhance spatial performance. The results show compelling evidence for a construction methodology to design and construct a 3-4 story building that holds a higher degree of resistance to earthquakes. The scope of work contributes to advancements in bioengineering, confirming easy-to-grow, light-weight mycelium-composites as viable structural materials for construction.
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:51

_id	acadia15_57
id	acadia15_57
authors	Sina, Ata; Pitt, Shannon; Meyboom, Annalisa; Olson, James; Martinez, Mark
year	2015
title	Thermocatalytic Metafolds
doi	https://doi.org/10.52842/conf.acadia.2015.057
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. 57-67
summary	Thermocatalytic Metafolds comprises a paper-based fabrication process that initiates ascetic self-assembly via heat application. Metafolds utilizes a composite material of paper with a selectively applied shape-changing polymer crafted via a multi-step computational, two-dimensional drafting fabrication method. Upon heat application, the paper self-folds into predetermined, three-dimensional, highly accurate, rigid shapes. The final product maintains a notable resilience to alteration, and the stringency of form serves as a testament to the process’ potential to transform the ways in which design is undertaken. This exploration of material properties has cumulated in a process that demonstrates a design based on a detailed understanding of how the composite material behaves under specific conditions.
keywords	Self-assembly, folding, composite, fabrication
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:56

_id	caadria2015_142
id	caadria2015_142
authors	Stavric, Milena Albert Wiltsche and Thomas Bogensperger
year	2015
title	Generative Design for Folded Timber Structures
doi	https://doi.org/10.52842/conf.caadria.2015.673
source	Emerging Experience in Past, Present and Future of Digital Architecture, Proceedings of the 20th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA 2015) / Daegu 20-22 May 2015, pp. 673-682
summary	Folding structures belong to the group of lightweight structural systems, which often consist of polygonal elements like triangles or quadrangles. Folding structures whose construction is made out of cross-laminated timber (CLT) panels represent an innovative step in the timber industry, which has many advantages. CLT panels can be used simultaneously as supporting elements and as finishing building envelopes. There are many prefabrication possibilities, high efficient material consumption, low production and assembly costs, and it has environmental advantages over conventional materials used for folding structure like concrete, metal or glass. CLT folding structures are not sufficiently explored. One of the reasons may lie in the fact of limited design possibilities, which includes the specificity of CLT capacity. Another reason is maybe the inability to use standard wooden connectors to transfer the forces along the thin linear edges where the panels are supported. The aim of this paper is to present design possibilities through parametric modelling using the characteristics of CLT. Using the example of a wooden theatre stage we will present results of our research.
keywords	Parametric modelling; folding structures; cross-laminated timber.
series	CAADRIA
email
last changed	2022/06/07 07:56

_id	sigradi2015_sp_3.85
id	sigradi2015_sp_3.85
authors	Balzani, Renan do Nascimento; Silva, Neander Furtado
year	2015
title	The Problem of self-censorship in architectural students and the low cost tree-dimensional printers
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. 767-770.
summary	Self-censorship can be observed in architectural students. Due to drawing and development methods of design representation, some students do not create the design they dream about. Believing that you do not have the ability or the technique to represent the ideas on paper or using physical models can cause the self-censorship in the students. The production of physical models is very important for the design thinking and for architectural student’s experience. The tree-dimensional printers can help as a tool to print complex volumetric models or detailed models allowing students to create freely.
keywords	Rapid Prototyping, 3D Printing, Design Theory, Architecture, Self-censorship
series	SIGRADI
email
last changed	2016/03/10 09:47

_id	ecaade2015_116
id	ecaade2015_116
authors	Bieg, Kory
year	2015
title	SUPRAFICIAL: Building (an) Information Network
doi	https://doi.org/10.52842/conf.ecaade.2015.1.277
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. 277-284
summary	This paper explores the potential of using multiple software programs to generate an adaptable, cross-platform Building Information Network to unlock new territories of form-making and design. By using multiple software packages to overcome the limitations imposed by current BIM (Building Information Model) programs and mono-scalar design approaches, we can design a buildings form, envelope, and materiality through an adaptable, parametric design process that uses the best features of each software program, allows non-computational input to inform form, and takes advantage of a designer's unique self-expression.
wos	WOS:000372317300030
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=40efae5a-702e-11e5-83aa-771f3575946f
last changed	2022/06/07 07:52

_id	caadria2015_030
id	caadria2015_030
authors	Daas, Mahesh and Andrew Wit
year	2015
title	Pedagogy of Architectural Robotics
doi	https://doi.org/10.52842/conf.caadria.2015.003
source	Emerging Experience in Past, Present and Future of Digital Architecture, Proceedings of the 20th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA 2015) / Daegu 20-22 May 2015, pp. 3-12
summary	As computation and robotics become more prevalent in all aspects of architecture, their impact on education assumes greater importance. The paper presents the outcomes of a collaborative undergraduate architectural design studio that investigates the realms of architectural robotics and computation by stepping into the fecund intersections between multiple disciplines. The pedagogical prototype, Unsolicited: An Inconvenient Studio, broadly focused on the topics of robotics and responsive architectures. The notion of robotics was interpreted to include a range of robotic technologies and their formal manifestations in the form of biomorphic, mechanomorphic, polymorphic, and amorphic robots, and interactive architecture. Taught using a recently developed framework that focuses on self-organizing systems and the creation of innovative technology-driven design entrepreneurs rather than merely on the creation of designed artefacts, students found themselves not only innovating with new digital technologies but also bridging architecture, urbanism and computer science. The paper describes the pedagogy, processes, and outcomes of the studio.
keywords	Robotics; interactive architecture; pedagogy; innovation; studio.
series	CAADRIA
email
last changed	2022/06/07 07:56

_id	caadria2015_150
id	caadria2015_150
authors	Fischer, Thomas
year	2015
title	Participation, Not Conservation
doi	https://doi.org/10.52842/conf.caadria.2015.499
source	Emerging Experience in Past, Present and Future of Digital Architecture, Proceedings of the 20th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA 2015) / Daegu 20-22 May 2015, pp. 499-508
summary	This paper introduces a research context characterised by a rich traditional heritage and by rapid urbanisation, and it argues for a discursive and participative, rather than a conservation-oriented approach to heritage conservation in this context. Harnessing the digital mastery found at architecture and design schools, the presented approach aims at the production of self-referential stories that hopefully engage students as well as others in appreciation of these traditions’ intangible qualities. A case study based on this approach undertaken in the context of silk weaving is discussed, and some results are shown.
keywords	Heritage; digital craft; storytelling; design; Jacquard loom.
series	CAADRIA
email
last changed	2022/06/07 07:51

_id	acadia15_137
id	acadia15_137
authors	Ireland, Tim
year	2015
title	A Cell-Inspired Model of Configuration
doi	https://doi.org/10.52842/conf.acadia.2015.137
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. 137-148
summary	This paper presents a bottom-up approach to organising architectural-space, which offers a fresh outlook on the automatic generation of architectural layouts. Artificial creatures, modelled on Eukaryotic cells, are used as components with which to generate configurations articulating patterns of habitation. These components represent discrete activities. Activity is perceived to be the basic building block of spatial configuration in architecture. Attributes, pertaining to input and outputs, establish activities as occurring in chains of action; affected by that which has preceded and affecting that which is to transpire. Being artificial creatures these activity-components have the capacity to interact with their environment and each other, and self-organise to form aggregations. The model demonstrates an ecological approach to designing in a manner that unites computational design with biological and semiotic theory. The theoretical basis of the model is first outlined, and then the computer model is presented and described.
keywords	Agents, Artificial Life, Configuration, Spatial Organisation, Behaviour of Organisms, Activity Diagrams
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:50

_id	ecaade2015_307
id	ecaade2015_307
authors	Kallegias, Alexandros and Erdine, Elif
year	2015
title	Design by Nature: Concrete Infiltrations
doi	https://doi.org/10.52842/conf.ecaade.2015.2.513
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. 513-520
summary	The paper aims to address methods of realizing computationally generated self-organizing systems on a one-to-one scale with the employment of a singular material system. The case study described in this paper is the outcome of an investigation which has explored earth scaffolding, fabric form-work, and concrete materiality during an international three-week architecture workshop. Real-time generative form-finding methods based on branching and bundling systems in nature have been developed and simulated in an open-source programming environment. The outcome of the simulation stage has been analyzed structurally via Finite Element Analysis (FEA), results of which have served as inputs for the fine-tuning of the simulation. Final three-dimensional geometry has been fabricated by employing fabric, essentially forming the fabric form-work. Fabric form-work is then laid on top of the earth scaffolding, followed by the process of concrete casting. From a pedagogical point of view, the research focuses on the integration of digital design techniques between various design/architecture/analysis platforms combined with basic and advanced techniques of construction within a limited time frame.abstract here by clicking this paragraph.
wos	WOS:000372316000058
series	eCAADe
email
last changed	2022/06/07 07:52

_id	sigradi2015_8.264
id	sigradi2015_8.264
authors	Naboni, Roberto; Breseghello, Luca
year	2015
title	Weaving Enclosure. Material computation and novel forms of crafting
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. 384-391.
summary	This paper presents a computationally based methodology arising from the application of weaving techniques for the design and construction of an experimental architectural system, Weaving Enclosure. The research explores the close correspondence between material properties and assembly systems found in the traditional craft of weaving, studied through analytical and laboratory tests, and then implemented through computational design and digital fabrication. The workflow for the generation of specific geometries related to the elastic nature of the material results in the design and fabrication of a self- standing interior partition with digitally conceived patterns, tuned parametrically to provide structural and screening performance.
keywords	Computational Design, Digital Crafting, Digital Fabrication, Material Computation, Weaving
series	SIGRADI
email
last changed	2016/03/10 09:55

_id	acadia20_668
id	acadia20_668
authors	Pasquero, Claudia; Poletto, Marco
year	2020
title	Deep Green
doi	https://doi.org/10.52842/conf.acadia.2020.1.668
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. 668-677.
summary	Ubiquitous computing enables us to decipher the biosphere’s anthropogenic dimension, what we call the Urbansphere (Pasquero and Poletto 2020). This machinic perspective unveils a new postanthropocentric reality, where the impact of artificial systems on the natural biosphere is indeed global, but their agency is no longer entirely human. This paper explores a protocol to design the Urbansphere, or what we may call the urbanization of the nonhuman, titled DeepGreen. With the development of DeepGreen, we are testing the potential to bring the interdependence of digital and biological intelligence to the core of architectural and urban design research. This is achieved by developing a new biocomputational design workflow that enables the pairing of what is algorithmically drawn with what is biologically grown (Pasquero and Poletto 2016). In other words, and more in detail, the paper will illustrate how generative adversarial network (GAN) algorithms (Radford, Metz, and Soumith 2015) can be trained to “behave” like a Physarum polycephalum, a unicellular organism endowed with surprising computational abilities and self-organizing behaviors that have made it popular among scientist and engineers alike (Adamatzky 2010) (Fig. 1). The trained GAN_Physarum is deployed as an urban design technique to test the potential of polycephalum intelligence in solving problems of urban remetabolization and in computing scenarios of urban morphogenesis within a nonhuman conceptual framework.
series	ACADIA
type	paper
email
last changed	2023/10/22 12:06

_id	ecaade2015_320
id	ecaade2015_320
authors	Rayo, Diego Alejandro Velandia
year	2015
title	Option One: A Model of Participatory Design to Construct a Rural Social Housing From Digital Fabrication
doi	https://doi.org/10.52842/conf.ecaade.2015.2.531
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. 531-539
summary	Option one is the first prototype in the process of construction, based on the application of integrated processes of digital fabrication: This methodology was developed through a research project which explores options of rural public housing. The design process is integrated with other variables such as: participative design, directed self-build and the integration of tangible and intangible aspects. Parametric modeling was used as a strategy to create an integrated process of design, production and assembly based on a code created in grasshopper. Once finished, the housing unit will be handed over to a rural family. This will allow for doing follow-up and evaluation.
wos	WOS:000372316000060
series	eCAADe
email
last changed	2022/06/07 08:00

_id	caadria2015_002
id	caadria2015_002
authors	Tomasowa, Riva
year	2015
title	BIM Design Collaboration Report
doi	https://doi.org/10.52842/conf.caadria.2015.387
source	Emerging Experience in Past, Present and Future of Digital Architecture, Proceedings of the 20th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA 2015) / Daegu 20-22 May 2015, pp. 387-395
summary	The discourse to mould Building Information Modelling (BIM) into the early architecture education has been escalated in many scholar papers and discussions. Scenarios are made to obtain optimum educational deliverance. However, the response from students’ perspective to the outlined subject has not been reviewed in terms of their competences, especially in Indonesian higher education where architectural computing education is relatively new. After BIM is delivered in two semesters span in the early stage at Bina Nusantara University, Faculty of Engineering, Architecture Department, survey is conducted to depict their understanding. This article is the feedback report, which shows that the students were self-convinced to the potential of BIM and its future. In achieving that particular level, the combination of various delivery methods is the utmost strategy to accompany the design studio with BIM.
keywords	BIM; collaboration; role-play; education
series	CAADRIA
email
last changed	2022/06/07 07:58

_id	ecaade2015_284
id	ecaade2015_284
authors	Wit, Andrew and Daas, Mahesh
year	2015
title	Memos from an Inconvenient Studio - Unsolicited Projects for Responsive Architectures
doi	https://doi.org/10.52842/conf.ecaade.2015.2.177
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. 177-184
summary	Computation, robotics and intelligent building/fabrication systems are finding themselves ever more prevalent within both practice and education. The assimilation of these new tools and methodologies within the pedagogy of architectural education continues to gain greater importance as we perceive their rapid evolution and integration within surrounding emergent fields. Through the model of an Inconvenient Studio, this paper examines the intersection between interdisciplinary collaboration, architectural robotics and computation as a means of gaining a broader understanding of how the architectural learning environment can be transformed into a self-organizing system for emergent solutions. The pedagogical prototype for an Inconvenient Studio was broadly focused on the topics of architectural robotics and responsive architectures interpreted through a range of robotic technologies and their manifestations such as biomorphic, mechanomorphic, polymorphic and amorphic robotics. Through a set of three “Memos” (Self-Organization, Autonomy, Sentience), this paper will describe how students created innovative technology-driven think tanks that produced design entrepreneurs.
wos	WOS:000372316000022
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=e2614828-6e8c-11e5-90d3-5363f2e5743b
last changed	2022/06/07 07:57

_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	caadria2015_220
id	caadria2015_220
authors	Cheng, Nancy Y.; Mehrnoush Latifi Khorasgani, Nicholas Williams, Daniel Prohasky and Jane Burry
year	2015
title	Understanding Light in Building Skin Design
doi	https://doi.org/10.52842/conf.caadria.2015.323
source	Emerging Experience in Past, Present and Future of Digital Architecture, Proceedings of the 20th International Conference of the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA 2015) / Daegu 20-22 May 2015, pp. 323-332
summary	This paper describes a design approach for discerning solar gain and assigning appropriate external shading devices. The approach includes a macro analysis locating where and when the building receives direct sunlight and locating desired interior daylighting; along with a micro analysis of how folded sun-shading motifs filter or block direct sunlight. The approach uses a collaborative analytical workflow with feedback from virtual and physical simulations informing design explorations. This iterative, reciprocating process is illustrated by student efforts to design shading structures for a building based on incident solar radiation. Designers begin with cutting and folding paper study models, then lasercut 2D tessellation patterns to create sculptural shading screens to be examined with a heliodon. Physical daylighting modeling reveals aesthetic opportunities to develop with parametric design. Motifs are then digitally modeled and analysed for shading effectiveness. Analysing the solar radiation of simple motifs helps beginners learn the software for subsequent urban situations. The efficacy of these simulations is discussed along with ways that the results could be interpreted to initiate design decisions for a building skin.
keywords	Solar simulation; collaborative design; folding surfaces; physical and digital simulation.
series	CAADRIA
email
last changed	2022/06/07 07:55

_id	acadia19_168
id	acadia19_168
authors	Adilenidou, Yota; Ahmed, Zeeshan Yunus; Freek, Bos; Colletti, Marjan
year	2019
title	Unprintable Forms
doi	https://doi.org/10.52842/conf.acadia.2019.168
source	ACADIA 19:UBIQUITY AND AUTONOMY [Proceedings of the 39th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 978-0-578-59179-7] (The University of Texas at Austin School of Architecture, Austin, Texas 21-26 October, 2019) pp.168-177
summary	This paper presents a 3D Concrete Printing (3DCP) experiment at the full scale of virtualarchitectural bodies developed through a computational technique based on the use of Cellular Automata (CA). The theoretical concept behind this technique is the decoding of errors in form generation and the invention of a process that would recreate the errors as a response to optimization (Adilenidou 2015). The generative design process established a family of structural and formal elements whose proliferation is guided through sets of differential grids (multi-grids) leading to the build-up of large span structures and edifices, for example, a cathedral. This tooling system is capable of producing, with specific inputs, a large number of outcomes in different scales. However, the resulting virtual surfaces could be considered as "unprintable" either due to their need of extra support or due to the presence of many cavities in the surface topology. The above characteristics could be categorized as errors, malfunctions, or undesired details in the geometry of a form that would need to be eliminated to prepare it for printing. This research project attempts to transform these "fabrication imprecisions" through new 3DCP techniques into factors of robustness of the resulting structure. The process includes the elimination of the detail / "errors" of the surface and their later reinsertion as structural folds that would strengthen the assembly. Through this process, the tangible outputs achieved fulfill design and functional requirements without compromising their structural integrity due to the manufacturing constraints.
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:54

_id	ecaade2015_122
id	ecaade2015_122
authors	Agirbas, Asli
year	2015
title	The Use of Digital Fabrication as a Sketching Tool in the Architectural Design Process - A Case Study
doi	https://doi.org/10.52842/conf.ecaade.2015.2.319
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. 319-324
summary	Computer-aided manufacturing (CAM) technologies including computer numerically controlled (CNC) milling, laser cutting and 3D printing are becoming cheaper and globally more accessible. Accordingly, many design professionals, academics and students have been able to experience the benefits and challenges of using digital fabrication in their designs. The use of digital fabrication in the education of architecture students has become normal in many schools of architecture, and there is a growing demand for computer-aided manufacturing (CAM) logic and fabrication knowledge in student learning. Clearly, architecture students are acquiring material base-thinking, time management, production methods and various software skills through this digital fabrication. However, it appears to be the case that architecture students use digital fabrication mainly in the final stage of their design or in their finishing work. In this study, computer-aided manufacturing (CAM) technologies have been used as a sketch tool rather than simply for fabricating a final product in the architectural design process and the advantages of this educational practice are demonstrated.
wos	WOS:000372316000037
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=79005d78-6fe6-11e5-b555-13a7f78815dc
last changed	2022/06/07 07:54

_id	ecaade2015_278
id	ecaade2015_278
authors	Aguiar, Rita and Gonçalves, Afonso
year	2015
title	Programming for Architecture: The Students’ Point of View
doi	https://doi.org/10.52842/conf.ecaade.2015.2.159
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. 159-168
summary	The following paper presents a reflection on computational design education in Architecture schools. For approaching this subject, the specific case of the Programming for Architecture course taught at Instituto Superior Técnico - Universty of Lisbon is presented and analyzed through the students' point of view. The aim of the course is to focus on representation methods through programming, introducing the fundamentals of computational approach to architectural design. We will explain and discuss the subject teaching methods, the structure of the course and the school environment. Also we will express the students' opinion regarding the class organization, the contents of the program and the usefulness of programming, as well as suggestions for an improved strategy for teaching computational methods to Architecture students.
wos	WOS:000372316000020
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=833a3bb0-6f78-11e5-9635-174d5ee09923
last changed	2022/06/07 07:54

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