Cumincad : CUMINCAD Papers : Search Results

CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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Reformat results as: short short into frame detailed detailed into frame

_id	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_302
id	ecaade2015_302
authors	Martins, Pedro Filipe; Campos, Paulo Fonsecade, Nunes, Sandra and Sousa, Jose Pedro
year	2015
title	Expanding the Material Possibilities of Lightweight Prefabrication in Concrete Through Robotic Hot-Wire Cutting - Form, Texture and Composition
doi	https://doi.org/10.52842/conf.ecaade.2015.2.341
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. 341-351
summary	In recent years, digital fabrication technologies have enabled renewed explorations into traditional materials, with innovative results. This paper focuses on concrete and on the potentials of a specific technology: robotic hot-wire cutting for the production of expanded polystyrene (EPS) formwork. Academia and industry have explored this process recently but the number of works built with this technology is reduced and the general concrete prefabrication industry has been slow to adopt it. In this context, this paper analyzes the use of EPS in the production of concrete formwork by reviewing its application in contemporary examples. In order to develop a clear assessment of the possibilities of expanding prefabrication in concrete using robotic hot-wire cutting, this paper also documents a set of practical experiments developed in the laboratory, addressing three material challenges: form; texture and composition. This research involved the design, formwork production and casting of concrete elements to explore the limits and characterize the process of robotic hot-wire fabrication in the context of concrete prefabrication. By recognizing the different approaches present in contemporary examples and in the explored practical experiments, we point out the advantages and limitations of using hot-wire cutting, and develop the reasons behind its limited application in practice.
wos	WOS:000372316000040
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=b9eb5cf6-6fe7-11e5-a012-0f427063eef2
last changed	2022/06/07 07:59

_id	cf2015_370
id	cf2015_370
authors	Kang, Julian; Campagnol, Gabriela;Caffey, Stephen and Clayton, Mark
year	2015
title	4D Construction Simulation Model of MASP
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. 370-379.
summary	Building Information Modeling (BIM) is an effective tool students can use to learn how building components work together to secure necessary structural stability in the course of construction. In Summer 2014, students enrolled in the BIM class at Texas A&M University created a 4-dimensional construction simulation model of the Museu de Arte de São Paulo (MASP) to understand how the entire building is sustained by two huge concrete beams connected with four external columns. For this class project, students analyzed the building system while creating a 3-dimensional model of the museum. They also came up with a construction sequence that would best maintain structural integrity of the building in the course of construction, and then produced a short animation video explaining the MASP construction process. This paper presents how the MASP project helped students learn a unique building system and its construction sequence.
keywords	BIM, 4D Construction Simulation, MASP
series	CAAD Futures
email
last changed	2015/06/29 07:55

_id	acadia15_149
id	acadia15_149
authors	Lagemann, Dennis
year	2015
title	A Model to Space
doi	https://doi.org/10.52842/conf.acadia.2015.149
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. 149-159
summary	Architects are used to work with models since the early beginnings of Renaissance. These models were made to conceive spatial objects before they become realized. Nowadays space seems to be outdated: There are information topologies, virtuality, and globalization. Our models are logistical rather than spatial and they become increasingly complicated. They put an emphasis on energy- or cost-efficiency rather than the vividness of a localized place. But as Architects we are supposed to be ‚masters of space’. And somehow it feels like we have lost our domain and degraded ourselves to attaching nice skins on increasingly optimized concrete- or steel-skeletons. In this sense it might be necessary to reconsider our mastership upon the articulation of space. One way to achieve this might be that computation could do more than just deliver increasingly intriguing geometries, instead it might offer us a look at the spaces conceivable but not yet imaginable: computed as information topologies and then rendered back into the geometrical framework of physical space. New media have entered our perception to a degree never imagined by future sciences of the past. So the question arises if space-time can still be considered as a single layer in actuality. As individualization takes command, being special becomes normality. In a quantized society, where many cultures coexist at the same places simultaneously, a new model to space must deal with the superposition of territories.
keywords	Models, Computation, Digitization, Architectural History/Theory, Topology <=> Geometry, Active Space, Inversion, Interlaced Fields, Paradigm Shift
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:52

_id	ijac201513205
id	ijac201513205
authors	Nahmad Vazquez, Alicia and Wassim Jabi
year	2015
title	A Collaborative Approach to Digital Fabrication:A Case Study for the Design and Production of Concrete ‘Pop-up’ Structures
source	International Journal of Architectural Computing vol. 13 - no. 2, 195-216
summary	The research presented in this paper utilizes industrial robotic arms and new material technologies to model and explore a prototypical workflow for on-site robotic collaboration based on feedback loops. This workflow will ultimately allow for the construction of customized, free-form, on-site concrete structures without the need for complex formwork. The paper starts with an explanation of the relevance of collaborative robotics through history in the industry and in architecture. An argument is put forward for the need to move towards the development of collaborative processes based on feedback loops amongst the designer, the robot and the material, where they all inform each other continuously. This kind of process, with different degrees of autonomy and agency for each actor, is necessary for on-site deployment of robots. A test scenario is described using an innovative material named concrete canvas that exhibits hybrid soft fabric and rigid thin-shell tectonics. This research project illustrates the benefits of integrating information-embedded materials, masscustomization and feedback loops. Geometry scanning, parametric perforation pattern control, computational analysis and simulation, and robotic fabrication were integrated within a digital fabrication deployment scenario. The paper concludes with a detailed report of research findings and an outline for future work.
series	journal
last changed	2019/05/24 09:55

_id	acadia15_69
id	acadia15_69
authors	Wilcox, Glenn; Trandafirescu, Anca
year	2015
title	C-Lith: Carbon Fiber Architectural Units
doi	https://doi.org/10.52842/conf.acadia.2015.069
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. 69-79
summary	C-LITH is the reconsideration of the architectural building unit through the exploration of new composite techniques and materials. Our project develops individual compo- nents that exploit the strength, lightness, and variability possible with carbon ber laments when paired with computation, digital fabrication, and hand assembly. Traditionally, architectural units made of brick or concrete are small and multiple, heavy, dif cult to vary, and are much better in compression than tension. Using carbon ber laments to create variable units allows for larger individual units that can vary in both shape and structural performance as needed. Our units, developed through winding pre-preg carbon ber tow around disposable molds, bene t structurally from the quasi-isotropic properties that are developed through the winding patterns. The specific structural capacities of the units remain to be understood through further testing and analysis, which falls outside the scope of this current research. At this junction, structural capacities have been determined empirically, i.e. will it stand? Most importantly, as a formal study, our units address the use of carbon ber at the scale of architectural production. A majority of the effort involved in materializing C-LITH was the development of a two-fold prototypical manufacturing process that produces the components and assembly. For this we invented a method to quickly and cheaply construct variable cardboard molds that could withstand the wound casting and baking steps, but could also be easily weakened through water immersion to be removed. For the assembly we developed a rigid dummy-jig system to hold the joint plates in position with a high level of precision but could also incrementally absorb the adjustment errors unavoidable in hand assembly systems. Using a simple pin connection the resultant structures can be easily disassembled for transportation and reassembly elsewhere.
keywords	Carbon Fiber Composite, Variability, Fabrication, Computation, Coding, Molds, Jigging, Assembly
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:57

_id	caadria2016_415
id	caadria2016_415
authors	Crolla, Kristof and Adam Fingrut
year	2016
title	Protocol of Error: The design and construction of a bending-active gridshell from natural bamboo
doi	https://doi.org/10.52842/conf.caadria.2016.415
source	Living Systems and Micro-Utopias: Towards Continuous Designing, Proceedings of the 21st International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2016) / Melbourne 30 March–2 April 2016, pp. 415-424
summary	This paper advocates alternative methods to overcome the impossibility of realising ‘perfect’ digital designs. It discusses Hong Kong’s 2015 ‘ZCB Bamboo Pavilion’ as a methodological case study for the design and construction of architecture from unprocessed natu- ral bamboo. The paper critically evaluates protocols set up to deal with errors resulting from precise digital design systems merging with inconsistent natural resources and onsite craftsmanship. The paper starts with the geometric and tectonic description of the project, illus- trating a complex and restrictive construction context. Bamboo’s unique growth pattern, structural build-up and suitability as a bending- active material are discussed and Cantonese bamboo scaffolding craftsmanship is addressed as a starting point for the project. The pa- per covers protocols, construction drawings and assembly methods developed to allow for the incorporation and of large building toler- ances and dimensional variation of bamboo. The final as-built 3d scanned structure is compared with the original digital model. The pa- per concludes by discussing the necessity of computational architec- tural design to proactively operate within a field of real-world inde- terminacy, to focus on the development of protocols that deal with imperfections, and to redirect design from the virtual world towards the latent opportunities of the physical.
keywords	Bamboo; bending-active gridshells; physics simulation; form-finding; indeterminacy
series	CAADRIA
email
last changed	2022/06/07 07:56

_id	ecaade2015_247
id	ecaade2015_247
authors	Garcia, Manuel Jimenez and Retsin, Gilles
year	2015
title	Design Methods for Large Scale Printing
doi	https://doi.org/10.52842/conf.ecaade.2015.2.331
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. 331-339
summary	With an exponential increase in the possibilities of computation and computer-controlled fabrication, high density information is becoming a reality in digital design and architecture. However, construction methods and industrial fabrication processes have not yet been reshaped to accommodate the recent changes in those disciplines. Although it is possible to build up complex simulations with millions of particles, the simulation is often disconnected from the actual fabrication process. Our research proposes a bridge between both stages, where one drives the other, producing a smooth transition from design to production. A particle in the digital domain becomes a drop of material in the construction method.The architect's medium of expression has become much more than a representational tool in the last century, and more recently it has evolved even beyond a series of rules to drive from design to production. The design system is the instruction itself; embedding structure, material and tectonics and gets delivered to the very end of the construction chain, where it gets materialised. The research showcased in this paper investigates tectonic systems associated with large scale 3D printing and additive manufacturing methods, inheriting both material properties and fabrication constraints at all stages from design to production. Computational models and custom design software packages are designed and developed as strategies to organise material in space in response to specific structural and logistical input.Although the research has developed a wide spectrum of 3D printing methods, this paper focuses only on two of the most recent projects, where different material and computational logics were investigated. The first, titled Filamentrics, intends to develop free-form space frames, overcoming their homogeneity by introducing robotic plastic extrusion. Through the use of custom made extruders a vast range of high resolution prototypes were developed, evolving the design process towards the fabrication of precise structures that can be materialised using additive manufacturing but without the use of a layered 3D printing method. Instead, material limitations were studied and embedded in custom algorithms that allow depositing material in the air for internal connectivity. The final result is a 3x2x2.5m structure that demonstrates the viability of this construction method for being implemented in more industrial scenarios.While Filamentrics is reshaping the way we could design and build light weight structures, the second project Microstrata aims to establish new construction methods for compression based materials. A layering 3D printing method combines both the deposition of the binder and the distribution of an interconnected network of capillaries. These capillaries are organised following structural principles, configuring a series of channels which are left empty within the mass. In a second stage aluminium is cast in this hollow space to build a continuous tension reinforcement.
wos	WOS:000372316000039
series	eCAADe
type	normal paper
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=07a6d8e0-6fe7-11e5-9994-cb14cd908012
last changed	2022/06/07 07:51

_id	cf2015_324
id	cf2015_324
authors	Gerber, David Jason; Pantazis, Evangelos and Marcolino, Leandro Soriano
year	2015
title	Design Agency: Prototyping Multi-Agent Systems in Architecture
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. 324.
summary	This paper presents research on the prototyping of multi-agent systems for architectural design. It proposes a design exploration methodology at the intersection of architecture, engineering, and computer science. The motivation of the work includes exploring bottom up generative methods coupled with optimizing performance criteria including for geometric complexity and objective functions for environmental, structural and fabrication parameters. The paper presents the development of a research framework and initial experiments to provide design solutions, which simultaneously satisfy complexly coupled and often contradicting objectives. The prototypical experiments and initial algorithms are described through a set of different design cases and agents within this framework; for the generation of façade panels for light control; for emergent design of shell structures; for actual construction of reciprocal frames; and for robotic fabrication. Initial results include multi-agent derived efficiencies for environmental and fabrication criteria and discussion of future steps for inclusion of human and structural factors.
keywords	Generative Design, Parametric Design, Multi-Agent Systems, Digital Fabrication, Form Finding, Reciprocal Frames.
series	CAAD Futures
email
last changed	2015/06/29 07:55

_id	caadria2019_626
id	caadria2019_626
authors	Hahm, Soomeen, Maciel, Abel, Sumitiomo, Eri and Lopez Rodriguez, Alvaro
year	2019
title	FlowMorph - Exploring the human-material interaction in digitally augmented craftsmanship
doi	https://doi.org/10.52842/conf.caadria.2019.1.553
source	M. Haeusler, M. A. Schnabel, T. Fukuda (eds.), Intelligent & Informed - Proceedings of the 24th CAADRIA Conference - Volume 1, Victoria University of Wellington, Wellington, New Zealand, 15-18 April 2019, pp. 553-562
summary	It has been proposed that, after the internet age, we are now entering a new era of the '/Augmented Age/' (King, 2016). Physician Michio Kaku imagined the future of architects will be relying heavily on Augmented Reality technology (Kaku, 2015). Augmented reality technology is not a new technology and has been evolving rapidly. In the last three years, the technology has been applied in mainstream consumer devices (Coppens, 2017). This opened up possibilities in every aspect of our daily lives and it is expected that this will have a great impact on every field of consumer's technology in near future, including design and fabrication. What is the future of design and making? What kind of new digital fabrication paradigm will emerge from inevitable technological development? What kind of impact will this have on the built environment and industry? FlowMorph is a research project developed in the Bartlett School of Architecture, B-Pro AD with the collaboration of the authors and students as a 12 month MArch programme, we developed a unique design project trying to answer these questions which will be introduced in this paper.
keywords	Augmented Reality, Mixed Reality, Virtual Reality, Design Augmentation, Digital Fabrication, Cognition models, Conceptual Designing, Design Process, Design by Making, Generative Design, Computational Design, Human-Machine Collaboration, Human-Computer Collaboration, Human intuition in digital fabrication
series	CAADRIA
email
last changed	2022/06/07 07:51

_id	ascaad2010_097
id	ascaad2010_097
authors	Kenzari, Bechir
year	2010
title	Generative Design and the Reduction of Presence
source	CAAD - Cities - Sustainability [5th International Conference Proceedings of the Arab Society for Computer Aided Architectural Design (ASCAAD 2010 / ISBN 978-1-907349-02-7], Fez (Morocco), 19-21 October 2010, pp. 97-106
summary	Digital design/fabrication is slowly emancipating architectural design from its traditional static/representational role and endowing it instead with a new, generative function. In opposition to the classical isomorphism between drawings and buildings, wherein the second stand as translations of the first, the digital design/fabrication scenario does not strictly fall within a semiotic frame as much as within a quasi biological context, reminiscent of the Aristotelian notion of entelechy. For the digital data does not represent the building as much it actively works to become the building itself. Only upon sending a given file to a machine does the building begin to materialize as an empirical reality, And eventually a habitable space as we empirically know it. And until the digital data actualizes itself, the building qua building is no more than one single, potential possibility among many others. This new universe of digital design/fabrication does not only cause buildings to be produced as quick, precise, multiply-generated objects but also reduces their presence as original entities. Like cars and fashion items, built structures will soon be manufactured as routinely-consumed items that would look original only through the subtle mechanisms of flexibility: frequent alteration of prototype design (Style 2010, Style 2015..) and “perpetual profiling” (mine, yours, hers,..). The generic will necessarily take over the circumstantial. But this truth will be veiled since “customized prototypes” will be produced or altered to individual or personal specifications. This implies that certain “myths” have to be generated to speed up consumption, to stimulate excessive use and to lock people into a continuous system which can generate consumption through a vocabulary of interchangeable, layered and repeatable functions. Samples of “next season’s buildings” will be displayed and disseminated to enforce this strategy of stimulating and channeling desire. A degree of manipulation is involved, and the consumer is flattered into believing that his or her own free assessment of and choice between the options on offer will lead him or her to select the product the advertiser is seeking to sell. From the standpoint of the architect as a maker, the rising upsurge of digital design and fabrication could leave us mourning the loss of what has been a personal stomping ground, namely the intensity of the directly lived experiences of design and building. The direct, sensuous contact with drawings, models and materials is now being lost to a (digital) realm whose attributes refer to physical reality only remotely. Unlike (analogue) drawings and buildings, digital manipulations and prototypes do not exercise themselves in a real space, and are not subjected in the most rigorous way to spatial information. They denote in this sense a loss of immediacy and a withering of corporal thought. This flexible production of space and the consequent loss of immediate experience from the part of the designer will be analyzed within a theoretical framework underpinned mainly by the works of Walter Benjamin. Samples of digitally-produced objects will be used to illustrate this argument.
series	ASCAAD
email
last changed	2011/03/01 07:36

_id	sigradi2015_3.43
id	sigradi2015_3.43
authors	Passaro, Andrés; Rohde, Clarice
year	2015
title	House Magazine: open source architecture
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. 70-76.
summary	The new digital fabrication technologies are changing the production methods in contemporary society. The sharing of information, within a new logic of production, has the potential to change the current economic system. The present work look after the open source architecture for digital fabrication, through the constructive experience of House Magazine, developed by LAMO3d, Laboratory of 3d Models and Digital Fabrication on FAU-UFRJ. The project, sold in newsstands with the correspondent assembly instructions, aims to popularize the fabrication technologies by its absorption and transfiguration in popular culture. The open source projects and technologies promote the widening of uses of knowledge and technological advances, unlinking them from the big business and generating a dispersion of production. It is up to us to recognize its potential and shape its endless application possibilities.
keywords	Open Source, Digital Fabrication, CNC, Social Housing
series	SIGRADI
email
last changed	2016/03/10 09:57

_id	acadia15_251
id	acadia15_251
authors	Pedro Sousa, José; Veiga, Germano; Moreira, A. Paulo
year	2015
title	Robotic Fabrication with Cork: Emerging Opportunities in Architecture and Building Construction
doi	https://doi.org/10.52842/conf.acadia.2015.251
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. 251-260
summary	In the last two decades, CAD/CAM technologies have opened new conceptual and material opportunities in architecture. By combining computational design and digital fabrication technologies, architects have embraced a higher level of geometric complexity and variability in their solutions. Such non-standard possibilities were expanded with the recent introduction of robotic technologies in the discipline, which have allowed moving beyond the fabrication of building components to reach the construction of building parts. As a result of this digital condition, traditional materials have known innovative applications in architecture. In this context, this paper presents cork, which is a natural and recyclable material. By describing its unique set of properties and features, it argues about its relevance for the building construction in the present times. With this underlying motivation, this paper defines the current state of the research in architecture on the use of robotic fabrication with cork. It does so by describing and illustrating a set of different experiments conducted by the authors in their academic institutions. The results unveil a set of innovative applications of cork in building construction, and, at the same time, contribute to show how robotic technologies can be used to rethink and update traditional and old materials in architecture.
keywords	Building Construction, Cork, CAD/CAM, Robotic Fabrication, Design Customization
series	ACADIA
type	normal paper
email
last changed	2022/06/07 07:59

_id	ecaade2015_72
id	ecaade2015_72
authors	Seiler, Uwe Tobias; Koch, Volker and Both, Petravon
year	2015
title	Immersive Virtual Simulation of Spaces
doi	https://doi.org/10.52842/conf.ecaade.2015.1.077
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. 77-88
summary	We describe a scalable multi layered projection room for immersive experiences of virtual architecture that combines visual, acoustic, olfactoric, climatic and haptic effects in a comprehensive test environment. The paper starts by summarizing main historic installations, which aimed to improve sensual experiences in addition to exclusively visual presentations. It continues with introducing practical tests and evaluations to identify possible ways to integrate other human senses into virtual spaces. The project group therefor set up a flexible test room in the scale of 1:5 in which physical effects like heat, odour, acoustic,air movement correspond to a visual representation of an architectural example. The article reports then tests about settings and first evaluation of this ongoing project and closes with a listing of further steps concerning a possible enlargement of the installation into 1:1 scale.
wos	WOS:000372317300009
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=157c1d3c-702c-11e5-99de-f728a67a27f8
last changed	2022/06/07 07:56

_id	ecaade2015_261
id	ecaade2015_261
authors	Sharif, Shani and Gentry, Russell
year	2015
title	BIM for Masonry: Development of BIM Plugins for the Masonry Unit Database
doi	https://doi.org/10.52842/conf.ecaade.2015.1.567
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. 567-576
summary	Masonry Unit Database (MUD) is an integral part of Building Information Modeling for Masonry (BIM-M) initiative. MUD provides a data structure framework for storing the required data for digital representation of masonry units. Specific information about masonry units such as price, geometry and physical properties is needed throughout the lifecycle of a building project, including the design, construction, maintenance, and demolition stages. The development of MUD contributes to enhancement of masonry BIM tools for practitioners to incorporate up-to-date masonry product information into their projects. There are five main stages in the development of MUD: development of process map of masonry building project lifecycle, data requirement identification, physical design of database, design of data import structures, and finally design of data export structures. This paper focuses on the development of the SQL based MUD, and a Revit-Dynamo data export plugin for this database. The developed plugin is especially beneficial as it provides a tool for fast and accurate generation of the parametric and data enhanced masonry units as Revit families on the fly from the stored dimensions and attributes in the database. The generated masonry units with this method would be embedded in masonry wall systems in BIM building project.
wos	WOS:000372317300061
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=13b44e20-7022-11e5-ab9c-00190f04dc4c
last changed	2022/06/07 07:56

_id	ecaade2015_298
id	ecaade2015_298
authors	Vannini, Virgínia Czarnobay and Turcienicz, Benamy
year	2015
title	Thermal Performance Associated with Materials in Early Stages of the Design Process
doi	https://doi.org/10.52842/conf.ecaade.2015.1.325
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. 325-331
summary	This work is part of a research on decision-making processes in architecture involving computer programs in the early stages of designing the building envelope. The research involves two steps: (1) intuitive processes analysis during the handling of the building envelope components - floor, roof, walls, windows, solar protection elements - and (2) generative processes analysis of building envelopes supported by performance models. This article is the first step, analyzing four housing prototypes, designed and built for the Solar Decathlon competition. First, the building envelope elements and thermal characteristics of these prototypes were modeled; then different materials that make up the envelope were tested, aimed at assessing thermal performance against the modifications proposed in six different scenarios. The results showed that it is possible to obtain intuitive solutions that equalize temperature changes in the early stages of design with computing environments even without the use of detailed data on the characteristics of buildings, features of the later stages of the project.
wos	WOS:000372317300035
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=a47c739a-702e-11e5-923c-bfb1b0817050
last changed	2022/06/07 07:58

_id	ecaade2015_287
id	ecaade2015_287
authors	Varela, Pedrode Azambuja and Sousa, Jose Pedro
year	2015
title	Digital Flow in Stone Heritage Buildings - The Nasoni Keystone Experiment
doi	https://doi.org/10.52842/conf.ecaade.2015.1.717
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. 717-726
summary	In a moment when digital technologies can interfere in every moment and task in the architectural production, architects are using them in many different ways. In architectural heritage, stone is a prevalent material and one can find some examples of architects exploring particular uses of computers when facing this kind of challenges. However, it seems that there is a lack of references trying to develop a transversal reading of the context, by offering a systematisation of those approaches. With this concern, this paper wants to describe and illustrate the way digital technologies can support architectural intervention in stone heritage buildings, bearing the specificity of this material, its constraints and opportunities. For each moment, specific computer-based technologies can be employed not only to perform those tasks, but also, to assure the flux of information through a digital continuum. This paper overviews those moments by discussing the technologies available and presenting some examples from existing reference practices. To test those concepts and arguments, this paper includes the description and illustration of an experiment carried out in the Laboratory by the authors, of a digital continuum process from surveying a stone building, to design and fabrication.
wos	WOS:000372317300078
series	eCAADe
email
more	https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=b1661030-702d-11e5-a8be-2fc2b39fc1bd
last changed	2022/06/07 07:58

_id	cf2015_005
id	cf2015_005
authors	Celani, Gabriela; Sperling, David M. and Franco, Juarez M. S. (eds.)
year	2015
title	Preface
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. 5-13.
summary	Since 1985 the Computer-Aided Architectural Design Futures Foundation has fostered high level discussions about the search for excellence in the built environment through the use of new technologies with an exploratory and critical perspective. In 2015, the 16th CAAD Futures Conference was held, for the first time, in South America, in the lively megalopolis of Sao Paulo, Brazil. In order to establish a connection to local issues, the theme of the conference was "The next city". The city of Sao Paulo was torn down and almost completely rebuilt twice, from the mid 1800s to the mid 1900s, evolving from a city built in rammed-earth to a city built in bricks and then from a city built in bricks to a city built in concrete. In the 21st century, with the widespread use of digital technologies both in the design and production of buildings, cities are changing even faster, in terms of layout, materials, shapes, textures, production methods and, above all, in terms of the information that is now embedded in built systems.Among the 200 abstracts received in the first phase, 64 were selected for presentation in the conference and publication in the Electronic Proceedings, either as long or short papers, after 3 tough evaluation stages. Each paper was reviewed by at least three different experts from an international committee of more than 80 highly experienced researchers. The authors come from 23 different countries. Among all papers, 10 come from Latin-American institutions, which have been usually under-represented in CAAD Futures. The 33 highest rated long papers are also being published in a printed book by Springer. For this reason, only their abstracts were included in this Electronic Proceedings, at the end of each chapter.The papers in this book have been organized under the following topics: (1) modeling, analyzing and simulating the city, (2) sustainability and performance of the built environment, (3) automated and parametric design, (4) building information modeling (BIM), (5) fabrication and materiality, and (6) shape studies. The first topic includes papers describing different uses of computation applied to the study of the urban environment. The second one represents one of the most important current issues in the study and design of the built environment. The third topic, automated and parametric design, is an established field of research that is finally becoming more available to practitioners. Fabrication has been a hot topic in CAAD conferences, and is becoming ever more popular. This new way of making design and buildings will soon start affecting the way cities look like. Finally, shape studies are an established and respected field in design computing that is traditionally discussed in CAAD conferences.
series	CAAD Futures
email
last changed	2015/06/29 07:55

_id	ecaade2015_120
id	ecaade2015_120
authors	Daoud, Bassam and Voordouw, Johan
year	2015
title	Making Machines that Make Buildings - Constructing a Mobile 3D Printer for Concrete Elements
doi	https://doi.org/10.52842/conf.ecaade.2015.2.355
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. 355-359
summary	This paper is both a fundamental and applied study of the multi-faceted design and fabrication issues related to the construction of a mobile 3D printer. The paper signifies the halfway point in a project initiated at the Azrieli School of Architecture and Urbanism at Carleton University starting in 2013. The printer, entitled 3DB, intends to print concrete elements for the Architecture, Engineering and Construction industry. The printer frame was designed to fit within the bed of a typical half-ton pick up truck or contract trailer. The paper describes the design, simulation and construction of the steel frame, gantry and extruder and makes speculation on future research including improved design of the extruder and nozzle mechanism.
wos	WOS:000372316000041
series	eCAADe
email
last changed	2022/06/07 07:55

_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

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