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	6058
authors	Smulevich, Gerard
year	1994
title	The Electronic Bauhaus
doi	https://doi.org/10.52842/conf.acadia.1994.197
source	Reconnecting [ACADIA Conference Proceedings / ISBN 1-880250-03-9] Washington University (Saint Louis / USA) 1994, pp. 197-208
summary	This paper describes the use of electronic space in a fourth year undergraduate architectural design studio. It attempts to address the importance of developing a design process that is redefined by the use of computing, integrating concept and perception. This goal is set in the studio exercise, an international student design competition to design an addition to the school of architecture at the original Bauhaus/Weimar. The studio involved re-evaluating the Bauhaus principles of integrating the artist and the craftsman, but in contemporary or post-industrial terms. In 1989 the Wall came down. Seamless access of western telecommunications and media became greatly responsible for the crumbling of the rigid machine-age soviet technocracy; and with it, the former east German city of Weimar, home to the first Bauhaus, was once again a living part of architectural history. When the Association of Collegiate Schools of Architecture announced an international student competition to design a new addition to the school of architecture at the original Bauhaus/Weimar, we immediately decided that this should be an Electronic Bauhaus.
series	ACADIA
email
last changed	2022/06/07 07:56

_id	c967
authors	Fantacone, Enrico
year	1994
title	Exporting CAD Teaching into Developing Countries
doi	https://doi.org/10.52842/conf.ecaade.1994.x.t3s
source	The Virtual Studio [Proceedings of the 12th European Conference on Education in Computer Aided Architectural Design / ISBN 0-9523687-0-6] Glasgow (Scotland) 7-10 September 1994, p. 222
summary	In 1986 the Faculty of Architecture was established in Maputo. It is financed by the Italian Ministry of Foreign Affairs and managed by a Scientific Council of the Faculty of Architecture of "Università La Sapienza" of Rome. The need to create human technical resources beeing able to work profesionally as soon as they finish their studies, made the teaching basis for lab exercises and design. The new architects (the first six students graduated in 1991), need to design and make very important decisions without any control by more experienced local technical institutions. The creation of a CAAD laboratory, and the teaching of information technologies and metodologies in architectural designing aimes to achieve a double goal: (-) to make the new architects able to manage on their own, because of the lack of qualified human resources, large quantity of data, and difficult design problems; (-) to make University, the most important scientific center in the country, an information exchange center between developped countries, and Moçambique.
series	eCAADe
last changed	2022/06/07 07:50

_id	sigradi2006_e028c
id	sigradi2006_e028c
authors	Griffith, Kenfield; Sass, Larry and Michaud, Dennis
year	2006
title	A strategy for complex-curved building design:Design structure with Bi-lateral contouring as integrally connected ribs
source	SIGraDi 2006 - [Proceedings of the 10th Iberoamerican Congress of Digital Graphics] Santiago de Chile - Chile 21-23 November 2006, pp. 465-469
summary	Shapes in designs created by architects such as Gehry Partners (Shelden, 2002), Foster and Partners, and Kohn Peterson and Fox rely on computational processes for rationalizing complex geometry for building construction. Rationalization is the reduction of a complete geometric shape into discrete components. Unfortunately, for many architects the rationalization is limited reducing solid models to surfaces or data on spread sheets for contractors to follow. Rationalized models produced by the firms listed above do not offer strategies for construction or digital fabrication. For the physical production of CAD description an alternative to the rationalized description is needed. This paper examines the coupling of digital rationalization and digital fabrication with physical mockups (Rich, 1989). Our aim is to explore complex relationships found in early and mid stage design phases when digital fabrication is used to produce design outcomes. Results of our investigation will aid architects and engineers in addressing the complications found in the translation of design models embedded with precision to constructible geometries. We present an algorithmically based approach to design rationalization that supports physical production as well as surface production of desktop models. Our approach is an alternative to conventional rapid prototyping that builds objects by assembly of laterally sliced contours from a solid model. We explored an improved product description for rapid manufacture as bilateral contouring for structure and panelling for strength (Kolarevic, 2003). Infrastructure typically found within aerospace, automotive, and shipbuilding industries, bilateral contouring is an organized matrix of horizontal and vertical interlocking ribs evenly distributed along a surface. These structures are monocoque and semi-monocoque assemblies composed of structural ribs and skinning attached by rivets and adhesives. Alternative, bi-lateral contouring discussed is an interlocking matrix of plywood strips having integral joinery for assembly. Unlike traditional methods of building representations through malleable materials for creating tangible objects (Friedman, 2002), this approach constructs with the implication for building life-size solutions. Three algorithms are presented as examples of rationalized design production with physical results. The first algorithm [Figure 1] deconstructs an initial 2D curved form into ribbed slices to be assembled through integral connections constructed as part of the rib solution. The second algorithm [Figure 2] deconstructs curved forms of greater complexity. The algorithm walks along the surface extracting surface information along horizontal and vertical axes saving surface information resulting in a ribbed structure of slight double curvature. The final algorithm [Figure 3] is expressed as plug-in software for Rhino that deconstructs a design to components for assembly as rib structures. The plug-in also translates geometries to a flatten position for 2D fabrication. The software demonstrates the full scope of the research exploration. Studies published by Dodgson argued that innovation technology (IvT) (Dodgson, Gann, Salter, 2004) helped in solving projects like the Guggenheim in Bilbao, the leaning Tower of Pisa in Italy, and the Millennium Bridge in London. Similarly, the method discussed in this paper will aid in solving physical production problems with complex building forms. References Bentley, P.J. (Ed.). Evolutionary Design by Computers. Morgan Kaufman Publishers Inc. San Francisco, CA, 1-73 Celani, G, (2004) “From simple to complex: using AutoCAD to build generative design systems” in: L. Caldas and J. Duarte (org.) Implementations issues in generative design systems. First Intl. Conference on Design Computing and Cognition, July 2004 Dodgson M, Gann D.M., Salter A, (2004), “Impact of Innovation Technology on Engineering Problem Solving: Lessons from High Profile Public Projects,” Industrial Dynamics, Innovation and Development, 2004 Dristas, (2004) “Design Operators.” Thesis. Massachusetts Institute of Technology, Cambridge, MA, 2004 Friedman, M, (2002), Gehry Talks: Architecture + Practice, Universe Publishing, New York, NY, 2002 Kolarevic, B, (2003), Architecture in the Digital Age: Design and Manufacturing, Spon Press, London, UK, 2003 Opas J, Bochnick H, Tuomi J, (1994), “Manufacturability Analysis as a Part of CAD/CAM Integration”, Intelligent Systems in Design and Manufacturing, 261-292 Rudolph S, Alber R, (2002), “An Evolutionary Approach to the Inverse Problem in Rule-Based Design Representations”, Artificial Intelligence in Design ’02, 329-350 Rich M, (1989), Digital Mockup, American Institute of Aeronautics and Astronautics, Reston, VA, 1989 Schön, D., The Reflective Practitioner: How Professional Think in Action. Basic Books. 1983 Shelden, D, (2003), “Digital Surface Representation and the Constructability of Gehry’s Architecture.” Diss. Massachusetts Institute of Technology, Cambridge, MA, 2003 Smithers T, Conkie A, Doheny J, Logan B, Millington K, (1989), “Design as Intelligent Behaviour: An AI in Design Thesis Programme”, Artificial Intelligence in Design, 293-334 Smithers T, (2002), “Synthesis in Designing”, Artificial Intelligence in Design ’02, 3-24 Stiny, G, (1977), “Ice-ray: a note on the generation of Chinese lattice designs” Environmental and Planning B, volume 4, pp. 89-98
keywords	Digital fabrication; bilateral contouring; integral connection; complex-curve
series	SIGRADI
email
last changed	2016/03/10 09:52

_id	ddss9452
id	ddss9452
authors	Koutamanis, Alexander
year	1994
title	Recognition and Retrieval in Visual Architectural Databases
source	Second Design and Decision Support Systems in Architecture & Urban Planning (Vaals, the Netherlands), August 15-19, 1994
summary	The development of visual architectural databases is heavily constrained by two technically, practically and conceptually intricate problems, input and retrieval. Input of visual images indifferent forms and from a variety of sources results into computer documents which can only be reproduced and disseminated. Any other use requires extensive annotation of the images with respect to indexing terms and other conceptual structures that make the images identifiable. The bulk of even modest visual databases and the complexity of the images and of the conceptual schemes means that interactive processing is labour-intensive and unreliable. Retrieval also relies on the same processes of annotation and indexing, which make possible the correlation of database contents with user queries. The paper presents the potential of automated recognition for inputting architectural floor plans into visual databases. An optically digitized image is segmented and each segment recognized as an instance of a building element (wall, door, window, etc.). The array ofrecognized elements is then controlled for recognition and segmentation errors. Further processing allows identification of spaces in the floor plan and of their interrelationships. The output of the process is a symbolic array that is much more compact than the original pixel array and also amenable to abstract and /or specific user queries, such as "How many doors are there in the floorplan" or "Which floor plans contain a double loaded corridor". These queries can be input verbally or graphically. Identification of building and spatial elements in a floor plan also allows use of vocabulary control in retrieval: user queries are checked against a thesaurus of architectural terms for accuracy and precision. The user is then presented with options for the improvement of the query before proceeding with identifying relevant entries in the database. Use ofvocabulary control as a search intermediary improves performance and reduces user frustration by making explicit the relevance of a query.
series	DDSS
last changed	2003/08/07 16:36

_id	ee8b
authors	Yakeley, Megan and Coates, Paul
year	1994
title	The Virtual Ching's Head
doi	https://doi.org/10.52842/conf.ecaade.1994.x.p3b
source	The Virtual Studio [Proceedings of the 12th European Conference on Education in Computer Aided Architectural Design / ISBN 0-9523687-0-6] Glasgow (Scotland) 7-10 September 1994, p. 225
summary	The bar in the Architectural Association, named after the bust that sat in one corner, had white formica topped tables. Each day around lunchtime these were cleaned with Vim by the bar staff, ready for the new day’s thought’s, ideas, and occasional inspirations. Students used the bar as an ideal place to discuss their work, the table tops providing an endless supply of virtual napkins waiting not to be used but to be drawn on. This atmosphere of providing a relaxed environment to discuss and debate architectural ideas proved immensly popular, with tea spills adding to the table top sketches. It is often forgotten in the ordered cleanliness of the CAD studio, where the protection of the computers overrides the comfort of their users, that ideas and their development do not always come when we most expect. Providing an atmosphere in which the designer feels comfortable enough to play is as vital now as at the time when the Architectural Association was seen as an ideal place to foster debate. As the architect feels more comfortable, so will the ideas flow more freely. This paper demonstrates how a CAD environment can become the virtual equivalent of a coffee bar as it relates to the design studio, where ideas are thrown around with abandon, and where the discussion of those ideas is more important than the material with which the ideas are depicted. In contrast, the use of computers in design is following along the same path as beautifully descriptive artwork or highly skillful technical drawings, that say much about the presentation abilities of their authors, yet often little about the actual designs. Designers often are so seduced by the medium that they do not properly see the message. A computer’s ability to present three dimesnional form instantly, and the ease with which those forms may be altered, stretched, shrunk, reversed and so on make the computer an ideal sketching tool. This paper shows the results of the combined RIBA Part II and MSc Computing and Design course. This two year, 96 week course is entirely computer based, and uses generative modelling to explore the fundamental nature of the design of form. This paper seeks to show how this approach may be successfully used with some students, and how the approach complements existing teaching methods and techniques. To accompany these notes a computer based presentation will illustrate a variety of past and present student work. This will show how rule based form, and the use of computers as a sketching tool, has influenced the students' working methods and their approach to the creation of form. Finally, we will show that the use of such a formal approach leads inevitably to a greater understanding of, and therefore a greater ability to articulate and illustrate, a student’s own design ideas and proposals. The use of the computer at every stage of the design process forces the student to be entirely explicit about every action as it occurs. Similarly the rule based approach requires them to be explicit about actions they propose to take in the future. This double combination has produced students who are highly articulate about their designs at every stage, and this paper aims to demonstrate that the more articulate the student, the greater is the possibility for success.
series	eCAADe
last changed	2022/06/07 07:50

_id	ddssup9610
id	ddssup9610
authors	Krafta, Romulo
year	1996
title	Built form and urban configuration development simulation
source	Timmermans, Harry (Ed.), Third Design and Decision Support Systems in Architecture and Urban Planning - Part two: Urban Planning Proceedings (Spa, Belgium), August 18-21, 1996
summary	The "centrality/potential" model, proposed by Krafta (1994), for configurational development, aims at the simulation of inner city built form growth. This is generally achieved by simulating the uneven distribution of floor area increments, resulting from replacement of old buildings, considered "devalued capital" form new ones. The model considers two main variables - public urban space system and built form - and treats them unevenly; the former is extensively disaggregated whereas the latter is not. This feature enables the model to make just a rough account of intra-urban built form development. The issue of built form simulation is then taken further in the following way: a) Urban built form is disaggregated by types. Buildings are classified by a cross combination of scale, purpose, age and quality standard; b) The city is itself considered as a set of intertwined typologic cities. This means that each unit of public space is identified by its dominant built form type, producing a multilayered-discontinuous city. Each one has its own market characteristics: rentability, technological availability and demand size; c) The market constraints determine which layer-city has priority over the others, as well as each one's size of growth. References to rentability and demand size gives each built form type priorities for development d) Spatial conditions, in the form of particular evaluation of centrality and spatial opportunity measures, regulates the distribution of built form increments and typological succession. Locational values, denoted by centrality and spatial opportunity measures, area differently accounted for in each layer-city simulation. e) Simulation is obtained by "running" the model recursively. Each built form type is simulated separately and in hyerarquical order, so that priority and replacement of built form types is acknowledged properly.
series	DDSS
email
last changed	2003/08/07 16:36

_id	ddss9459
id	ddss9459
authors	Langelaan, Willem
year	1994
title	Sequential and Concurrent Cad Layering
source	Second Design and Decision Support Systems in Architecture & Urban Planning (Vaals, the Netherlands), August 15-19, 1994
summary	Most CAD software allows graphical and text objects to be grouped into layers. There are two fundamentally different methods for layering: sequential layering and concurrent layering. With sequential layering, layers are attributes of the CAD database and objects are attributes of a layer. With concurrent layering, objects are attributes of the CAD database and a layer is an attribute of an object. Sequential layering emulates the pinbar drafting technique. As a result, it is output oriented. Only one layer at a time can be edited. Concurrent layering is uniquely a computer based layering method which has no manual equivalent. User specified sets of layers can be edited concurrently. It makes it possible to organize the infrastructure of the CAD database which equally facilitates input, i.e. editing design information, and output, i.e. presenting construction information on paper. Specification levels are related to design levels and to construction phases. Specification levels can serve as interfaces between input and output. In particular, a concurrently layered CAD database can be structured in layers which conform to specification levels. Furthermore, the layers can be subdivided by sub-system such as construction discipline, and by partial-system such as room finish schedules. It is demonstrated how a concurrently layered environment for computer aided design can be developed which permits deductive and inductive design activities. The appendix provides a detailed example of a concurrently layered CAD file with a default input and output environment of layers and layer groups. The environment was developed to coordinate the design and production activities of an architectural practice. The connections between layers and layer groups are illustrated in a 22 x 32 matrix.
series	DDSS
last changed	2003/08/07 16:36

_id	b4e1
authors	Merz, R.
year	1994
title	Shape deposition manufacturing
source	Vienna University of Technology
summary	This thesis addresses the issue of rapidly and automatically fabricating functional metal parts directly from CAD models. A newly developed process called Shape Deposition Manufacturing (SDM) is introduced. The process is based on the concept of layered manufacturing in SFF, but uses separate deposition and shaping steps to create a layer. Three dimensionally shaped layers are created using 5-axis CNC machining, to achieve the required geometric accuracy for fully functional shapes. Thermal deposition technologies (thermal spraying, welding) are used to achieve the required material properties. A novel, droplet based deposition process, microcasting, has been developed, to create well- bonded, high-strength material, while minimising the heat input into previously shaped layers. To create layers with a true three dimensional geometry, more detailed building strategies, than used by conventional SFF processes, are required by the SDM process. A CAD based planning system, which addresses these issues by decomposing a solid model of a part into layers and manufacturable, fully three dimensional segments is described. An automated testbed facility installed at Carnegie Mellon's Shape Deposition Laboratory is discussed, and shows the feasibility of automating the process. The microcasting process is explained in detail and its performance in the SDM environment is evaluated. Different strategies and material combinations for the support structure have been developed and are presented with detailed descriptions of several building strategies for parts with various complexity and material quality. Material properties of structures created by the SDM process are evaluated. Problems affecting the accuracy and material integrity of SDM created structures, which mainly involve the buildup of thermal stresses during material deposition, are identified and opened for future research. Finally, various parts, with different complexity, have been built with the SDM process, to show the feasibility and performance of the process. Building time and material usage are evaluated and compared to conventional SFF processes
series	thesis:PhD
email
more	http://www.arcs.ac.at/dissdb/rn024248
last changed	2003/02/12 22:37

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