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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References

Hits 1 to 20 of 145

_id debf
authors Bertol, D.
year 1997
title Designing Digital Space - An Architect's Guide to Virtual Reality
source John Wiley & Sons, New York
summary The first in-depth book on virtual reality (VR) aimed specifically at architecture and design professionals, Designing Digital Space steers you skillfully through the learning curve of this exciting new technology. Beginning with a historical overview of the evolution of architectural representations, this unique resource explains what VR is, how it is being applied today, and how it promises to revolutionize not only the design process, but the form and function of the built environment itself. Vividly illustrating how VR fits alongside traditional methods of architectural representation, this comprehensive guide prepares you to make optimum practical use of this powerful interactive tool, and embrace the new role of the architect in a virtually designed world. Offers in-depth coverage of the virtual universe-data representation and information management, static and dynamic worlds, tracking and visual display systems, control devices, and more. Examines a wide range of current VR architectural applications, from walkthroughs, simulations, and evaluations to reconstructions and networked environments Includes insightful essays by leading VR developers covering some of today's most innovative projects Integrates VR into the historical framework of architectural development, with detailed sections on the past, present, and future Features a dazzling array of virtual world images and sequential displays Explores the potential impact of digital architecture on the built environment of the future
series other
last changed 2003/04/23 15:14

_id 389b
authors Do, Ellen Yi-Luen
year 2000
title Sketch that Scene for Me: Creating Virtual Worlds by Freehand Drawing
source Promise and Reality: State of the Art versus State of Practice in Computing for the Design and Planning Process [18th eCAADe Conference Proceedings / ISBN 0-9523687-6-5] Weimar (Germany) 22-24 June 2000, pp. 265-268
doi https://doi.org/10.52842/conf.ecaade.2000.265
summary With the Web people can now view virtual threedimensional worlds and explore virtual space. Increasingly, novice users are interested in creating 3D Web sites. Virtual Reality Modeling Language gained ISO status in 1997, although it is being supplanted by the compatible Java3D API and alternative 3D Web technologies compete. Viewing VRML scenes is relatively straightforward on most hardware platforms and browsers, but currently there are only two ways to create 3D virtual scenes: One is to code the scene directly using VRML. The other is to use existing CAD and modeling software, and save the world in VRML format or convert to VRML from some other format. Both methods are time consuming, cumbersome, and have steep learning curves. Pen-based user interfaces, on the other hand, are for many an easy and intuitive method for graphics input. Not only are people familiar with the look and feel of paper and pencil, novice users also find it less intimidating to draw what they want, where they want it instead of using a complicated tool palette and pull-down menus. Architects and designers use sketches as a primary tool to generate design ideas and to explore alternatives, and numerous computer-based interfaces have played on the concept of "sketch". However, we restrict the notion of sketch to freehand drawing, which we believe helps people to think, to envision, and to recognize properties of the objects with which they are working. SKETCH employs a pen interface to create three-dimensional models, but it uses a simple language of gestures to control a three-dimensional modeler; it does not attempt to interpret freehand drawings. In contrast, our support of 3D world creation using freehand drawing depend on users’ traditional understanding of a floor plan representation. Igarashi et al. used a pen interface to drive browsing in a 3D world, by projecting the user’s marks on the ground plane in the virtual world. Our Sketch-3D project extends this approach, investigating an interface that allows direct interpretation of the drawing marks (what you draw is what you get) and serves as a rapid prototyping tool for creating 3D virtual scenes.
keywords Freehand Sketching, Pen-Based User Interface, Interaction, VRML, Navigation
series eCAADe
email
more http://www.uni-weimar.de/ecaade/
last changed 2022/06/07 07:55

_id 567d
authors Farrag, C., Pinna Braga, F. and Teixeira, P.
year 2000
title Investigação de Metodologia de Ensino de Informática Aplicada à Arquitetura (Research on the Methodology for Teaching Computer Applications in Architecture)
source SIGraDi’2000 - Construindo (n)o espacio digital (constructing the digital Space) [4th SIGRADI Conference Proceedings / ISBN 85-88027-02-X] Rio de Janeiro (Brazil) 25-28 september 2000, pp. 347-349
summary Description of class research from 1997-2 to 2000-1 in “Applied Computing in Architecture” conducted in the sixth semester of the Architecture Program at Faculdade de Belas Artes de São Paulo. The study is intended to analyze, evaluate and discover new paradigms in the introduction/application of class methodologies of teaching the use of computer in the design process. Our intention is to verify the students natural understanding of the principles of 3D digital modeling by introducing new tools for defining space and form, using the computer as a communication/representation system, and not only as a mimetized production tool. The challenge was to find a natural syntony between the digital projectual process and the learning process. At the end of each semester we evaluated the results and redirected the class proposals.
series SIGRADI
email
last changed 2016/03/10 09:51

_id a51c
authors Gero, John S.
year 1997
title What Are We Learning from Designers and its Role in Future CAAD Tools
source CAAD Futures 1997 [Conference Proceedings / ISBN 0-7923-4726-9] München (Germany), 4-6 August 1997, pp. 61-70
summary Recent research into the activity and behaviour of human designers as they design has provide an impetus to carry out research which underpins the development of new CAAD support tools. However, there are computational processes of interest in designing which are not modeled on human design processes. This paper outlines some of the design processes which are being researched based on our understanding of human designers and provides examples from some early implementations.
series CAAD Futures
email
last changed 1999/04/06 09:19

_id dba1
authors Hirschberg, Urs and Wenz, Florian
year 2000
title Phase(x) - memetic engineering for architecture
source Automation in Construction 9 (4) (2000) pp. 387-392
summary Phase(x) was a successful teaching experiment we made in our entry level CAAD course in the Wintersemester 1996/1997. The course was entirely organized by means of a central database that managed all the students' works through different learning phases. This set-up allowed that the results of one phase and one author be taken as the starting point for the work in the next phase by a different author. As students could choose which model they wanted to work with, the whole of Phase(x) could be viewed as an organism where, as in a genetic system, only the "fittest" works survived. While some discussion of the technical set-up is necessary as a background, the main topics addressed in this paper will be the structuring in phases of the course, the experiences we had with collective authorship, and the observations we made about the memes2 that developed and spread in the students' works. Finally we'll draw some conclusions in how far Phase(x) is relevant also in a larger context, which is not limited to teaching CAAD. Since this paper was first published in 1997, we have continued to explore the issues described here in various projects3 together with a growing number of other interested institutions worldwide. While leaving the paper essentially in its original form, we added a section at the end, in which we outline some of these recent developments.
series journal paper
more http://www.elsevier.com/locate/autcon
last changed 2003/05/15 21:22

_id d910
authors Kieferle, Joachim B. and Herzberger, Erwin
year 2002
title The “Digital year for Architects” Experiences with an integrated teaching concept
source Connecting the Real and the Virtual - design e-ducation [20th eCAADe Conference Proceedings / ISBN 0-9541183-0-8] Warsaw (Poland) 18-20 September 2002, pp. 88-95
doi https://doi.org/10.52842/conf.ecaade.2002.088
summary The “digital year for architects” is an integrated course for graduate architecture students, that has been held since 1997 at Stuttgart University. Its concept is to link together traditional design teaching and working with computers. Three seminars and one design project are the framework of the course, in which the students are taught in design of e.g. image and space composition, typography, video, using virtual reality, theoretical basics for the final design project like information management or working environments, approximately a dozen software packages and finally a visionary design project. It has shown that the advantage of an integrated course compared to separate courses is the more intensive dealing with the project as well as achieving better skills when learning the new media. Not only because the project topics are different from usual architecture and more abstract, the main effect is to widen the students way of thinking and designing.
series eCAADe
email
last changed 2022/06/07 07:52

_id c2d8
id c2d8
authors Ozel, Filiz
year 1997
title Representing Design Decisions: An Object Oriented Approach
source Design and Representation [ACADIA ‘97 Conference Proceedings / ISBN 1-880250-06-3] Cincinatti, Ohio (USA) 3-5 October 1997, pp. 37-49
doi https://doi.org/10.52842/conf.acadia.1997.037
summary During the course of a design project numerous design decisions are made, usually with little attention paid to documenting them or keeping track of them. Systematic documentation and representation of design decisions can not only be invaluable in learning from past design experiences, but can also be good tools in teaching architectural design. By using abstraction and analogy to analyze a design precedent, a problem/sub-problem hierarchy can be built where similarities and differences between the precedent problem and the target problem, goals, constraints and solutions are identified for each level of the hierarchy. Each one of these can be represented as objects in an object oriented programming environment, allowing the construction of a hierarchic structure. This model was incorporated into a computer assisted learning system called "DesignRep" which was created by using Toolbook (Asymetrix Co.) object oriented development environment.
series ACADIA
email
last changed 2022/06/07 08:00

_id ga0026
id ga0026
authors Ransen, Owen F.
year 2000
title Possible Futures in Computer Art Generation
source International Conference on Generative Art
summary Years of trying to create an "Image Idea Generator" program have convinced me that the perfect solution would be to have an artificial artistic person, a design slave. This paper describes how I came to that conclusion, realistic alternatives, and briefly, how it could possibly happen. 1. The history of Repligator and Gliftic 1.1 Repligator In 1996 I had the idea of creating an “image idea generator”. I wanted something which would create images out of nothing, but guided by the user. The biggest conceptual problem I had was “out of nothing”. What does that mean? So I put aside that problem and forced the user to give the program a starting image. This program eventually turned into Repligator, commercially described as an “easy to use graphical effects program”, but actually, to my mind, an Image Idea Generator. The first release came out in October 1997. In December 1998 I described Repligator V4 [1] and how I thought it could be developed away from simply being an effects program. In July 1999 Repligator V4 won the Shareware Industry Awards Foundation prize for "Best Graphics Program of 1999". Prize winners are never told why they won, but I am sure that it was because of two things: 1) Easy of use 2) Ease of experimentation "Ease of experimentation" means that Repligator does in fact come up with new graphics ideas. Once you have input your original image you can generate new versions of that image simply by pushing a single key. Repligator is currently at version 6, but, apart from adding many new effects and a few new features, is basically the same program as version 4. Following on from the ideas in [1] I started to develop Gliftic, which is closer to my original thoughts of an image idea generator which "starts from nothing". The Gliftic model of images was that they are composed of three components: 1. Layout or form, for example the outline of a mandala is a form. 2. Color scheme, for example colors selected from autumn leaves from an oak tree. 3. Interpretation, for example Van Gogh would paint a mandala with oak tree colors in a different way to Andy Warhol. There is a Van Gogh interpretation and an Andy Warhol interpretation. Further I wanted to be able to genetically breed images, for example crossing two layouts to produce a child layout. And the same with interpretations and color schemes. If I could achieve this then the program would be very powerful. 1.2 Getting to Gliftic Programming has an amazing way of crystalising ideas. If you want to put an idea into practice via a computer program you really have to understand the idea not only globally, but just as importantly, in detail. You have to make hard design decisions, there can be no vagueness, and so implementing what I had decribed above turned out to be a considerable challenge. I soon found out that the hardest thing to do would be the breeding of forms. What are the "genes" of a form? What are the genes of a circle, say, and how do they compare to the genes of the outline of the UK? I wanted the genotype representation (inside the computer program's data) to be directly linked to the phenotype representation (on the computer screen). This seemed to be the best way of making sure that bred-forms would bare some visual relationship to their parents. I also wanted symmetry to be preserved. For example if two symmetrical objects were bred then their children should be symmetrical. I decided to represent shapes as simply closed polygonal shapes, and the "genes" of these shapes were simply the list of points defining the polygon. Thus a circle would have to be represented by a regular polygon of, say, 100 sides. The outline of the UK could easily be represented as a list of points every 10 Kilometers along the coast line. Now for the important question: what do you get when you cross a circle with the outline of the UK? I tried various ways of combining the "genes" (i.e. coordinates) of the shapes, but none of them really ended up producing interesting shapes. And of the methods I used, many of them, applied over several "generations" simply resulted in amorphous blobs, with no distinct family characteristics. Or rather maybe I should say that no single method of breeding shapes gave decent results for all types of images. Figure 1 shows an example of breeding a mandala with 6 regular polygons: Figure 1 Mandala bred with array of regular polygons I did not try out all my ideas, and maybe in the future I will return to the problem, but it was clear to me that it is a non-trivial problem. And if the breeding of shapes is a non-trivial problem, then what about the breeding of interpretations? I abandoned the genetic (breeding) model of generating designs but retained the idea of the three components (form, color scheme, interpretation). 1.3 Gliftic today Gliftic Version 1.0 was released in May 2000. It allows the user to change a form, a color scheme and an interpretation. The user can experiment with combining different components together and can thus home in on an personally pleasing image. Just as in Repligator, pushing the F7 key make the program choose all the options. Unlike Repligator however the user can also easily experiment with the form (only) by pushing F4, the color scheme (only) by pushing F5 and the interpretation (only) by pushing F6. Figures 2, 3 and 4 show some example images created by Gliftic. Figure 2 Mandala interpreted with arabesques   Figure 3 Trellis interpreted with "graphic ivy"   Figure 4 Regular dots interpreted as "sparks" 1.4 Forms in Gliftic V1 Forms are simply collections of graphics primitives (points, lines, ellipses and polygons). The program generates these collections according to the user's instructions. Currently the forms are: Mandala, Regular Polygon, Random Dots, Random Sticks, Random Shapes, Grid Of Polygons, Trellis, Flying Leap, Sticks And Waves, Spoked Wheel, Biological Growth, Chequer Squares, Regular Dots, Single Line, Paisley, Random Circles, Chevrons. 1.5 Color Schemes in Gliftic V1 When combining a form with an interpretation (described later) the program needs to know what colors it can use. The range of colors is called a color scheme. Gliftic has three color scheme types: 1. Random colors: Colors for the various parts of the image are chosen purely at random. 2. Hue Saturation Value (HSV) colors: The user can choose the main hue (e.g. red or yellow), the saturation (purity) of the color scheme and the value (brightness/darkness) . The user also has to choose how much variation is allowed in the color scheme. A wide variation allows the various colors of the final image to depart a long way from the HSV settings. A smaller variation results in the final image using almost a single color. 3. Colors chosen from an image: The user can choose an image (for example a JPG file of a famous painting, or a digital photograph he took while on holiday in Greece) and Gliftic will select colors from that image. Only colors from the selected image will appear in the output image. 1.6 Interpretations in Gliftic V1 Interpretation in Gliftic is best decribed with a few examples. A pure geometric line could be interpreted as: 1) the branch of a tree 2) a long thin arabesque 3) a sequence of disks 4) a chain, 5) a row of diamonds. An pure geometric ellipse could be interpreted as 1) a lake, 2) a planet, 3) an eye. Gliftic V1 has the following interpretations: Standard, Circles, Flying Leap, Graphic Ivy, Diamond Bar, Sparkz, Ess Disk, Ribbons, George Haite, Arabesque, ZigZag. 1.7 Applications of Gliftic Currently Gliftic is mostly used for creating WEB graphics, often backgrounds as it has an option to enable "tiling" of the generated images. There is also a possibility that it will be used in the custom textile business sometime within the next year or two. The real application of Gliftic is that of generating new graphics ideas, and I suspect that, like Repligator, many users will only understand this later. 2. The future of Gliftic, 3 possibilties Completing Gliftic V1 gave me the experience to understand what problems and opportunities there will be in future development of the program. Here I divide my many ideas into three oversimplified possibilities, and the real result may be a mix of two or all three of them. 2.1 Continue the current development "linearly" Gliftic could grow simply by the addition of more forms and interpretations. In fact I am sure that initially it will grow like this. However this limits the possibilities to what is inside the program itself. These limits can be mitigated by allowing the user to add forms (as vector files). The user can already add color schemes (as images). The biggest problem with leaving the program in its current state is that there is no easy way to add interpretations. 2.2 Allow the artist to program Gliftic It would be interesting to add a language to Gliftic which allows the user to program his own form generators and interpreters. In this way Gliftic becomes a "platform" for the development of dynamic graphics styles by the artist. The advantage of not having to deal with the complexities of Windows programming could attract the more adventurous artists and designers. The choice of programming language of course needs to take into account the fact that the "programmer" is probably not be an expert computer scientist. I have seen how LISP (an not exactly easy artificial intelligence language) has become very popular among non programming users of AutoCAD. If, to complete a job which you do manually and repeatedly, you can write a LISP macro of only 5 lines, then you may be tempted to learn enough LISP to write those 5 lines. Imagine also the ability to publish (and/or sell) "style generators". An artist could develop a particular interpretation function, it creates images of a given character which others find appealing. The interpretation (which runs inside Gliftic as a routine) could be offered to interior designers (for example) to unify carpets, wallpaper, furniture coverings for single projects. As Adrian Ward [3] says on his WEB site: "Programming is no less an artform than painting is a technical process." Learning a computer language to create a single image is overkill and impractical. Learning a computer language to create your own artistic style which generates an infinite series of images in that style may well be attractive. 2.3 Add an artificial conciousness to Gliftic This is a wild science fiction idea which comes into my head regularly. Gliftic manages to surprise the users with the images it makes, but, currently, is limited by what gets programmed into it or by pure chance. How about adding a real artifical conciousness to the program? Creating an intelligent artificial designer? According to Igor Aleksander [1] conciousness is required for programs (computers) to really become usefully intelligent. Aleksander thinks that "the line has been drawn under the philosophical discussion of conciousness, and the way is open to sound scientific investigation". Without going into the details, and with great over-simplification, there are roughly two sorts of artificial intelligence: 1) Programmed intelligence, where, to all intents and purposes, the programmer is the "intelligence". The program may perform well (but often, in practice, doesn't) and any learning which is done is simply statistical and pre-programmed. There is no way that this type of program could become concious. 2) Neural network intelligence, where the programs are based roughly on a simple model of the brain, and the network learns how to do specific tasks. It is this sort of program which, according to Aleksander, could, in the future, become concious, and thus usefully intelligent. What could the advantages of an artificial artist be? 1) There would be no need for programming. Presumbably the human artist would dialog with the artificial artist, directing its development. 2) The artificial artist could be used as an apprentice, doing the "drudge" work of art, which needs intelligence, but is, anyway, monotonous for the human artist. 3) The human artist imagines "concepts", the artificial artist makes them concrete. 4) An concious artificial artist may come up with ideas of its own. Is this science fiction? Arthur C. Clarke's 1st Law: "If a famous scientist says that something can be done, then he is in all probability correct. If a famous scientist says that something cannot be done, then he is in all probability wrong". Arthur C Clarke's 2nd Law: "Only by trying to go beyond the current limits can you find out what the real limits are." One of Bertrand Russell's 10 commandments: "Do not fear to be eccentric in opinion, for every opinion now accepted was once eccentric" 3. References 1. "From Ramon Llull to Image Idea Generation". Ransen, Owen. Proceedings of the 1998 Milan First International Conference on Generative Art. 2. "How To Build A Mind" Aleksander, Igor. Wiedenfeld and Nicolson, 1999 3. "How I Drew One of My Pictures: or, The Authorship of Generative Art" by Adrian Ward and Geof Cox. Proceedings of the 1999 Milan 2nd International Conference on Generative Art.
series other
email
more http://www.generativeart.com/
last changed 2003/08/07 17:25

_id cc51
authors Schnier, T. and Gero, J.S
year 1997
title Dominant and recessive genes in evolutionary systems applied to spatial reasoning
source A. Sattar (Ed.), Advanced Topics in Artificial Intelligence: 10th Australian Joint Conference on Artificial Intelligence AI97 Proceedings, Springer, Heidelberg, pp. 127-136
summary Learning genetic representation has been shown to be a useful tool in evolutionary computation. It can reduce the time required to find solutions and it allows the search process to be biased towards more desirable solutions. Learn-ing genetic representation involves the bottom-up creation of evolved genes from either original (basic) genes or from other evolved genes and the introduction of those into the population. The evolved genes effectively protect combinations of genes that have been found useful from being disturbed by the genetic operations (cross-over, mutation). However, this protection can rapidly lead to situations where evolved genes in-terlock in such a way that few or no genetic operations are possible on some genotypes. To prevent the interlocking previous implementations only allow the creation of evolved genes from genes that are direct neighbours on the genotype and therefore form continuous blocks. In this paper it is shown that the notion of dominant and recessive genes can be used to remove this limitation. Using more than one gene at a single location makes it possible to construct genetic operations that can separate interlocking evolved genes. This allows the use of non-continuous evolved genes with only minimal violations of the protection of evolved genes from those operations. As an example, this paper shows how evolved genes with dominant and re-cessive genes can be used to learn features from a set of Mondrian paintings. The representation can then be used to create new designs that contain features of the examples. The Mondrian paintings can be coded as a tree, where every node represents a rectangle division, with values for direction, position, line-width and colour. The modified evolutionary operations allow the system to cre-ate non-continuous evolved genes, for example associate two divisions with thin lines, without specifying other values. Analysis of the behaviour of the system shows that about one in ten genes is a dominant/recessive gene pair. This shows that while dominant and recessive genes are important to allow the use of non-continuous evolved genes, they do not occur often enough to seriously violate the protection of evolved genes from genetic operations.
keywords Evolutionary Systems, Genetic Representations
series other
email
last changed 2003/04/06 07:24

_id 6629
authors Torrance, V.
year 1997
title Building process summary
source Automation in Construction 6 (1) (1997) pp. 11-16
summary There is a lack of research in the UK construction industry. New technologies, particularly communications, are producing rapid change and, if the UK does not exploit this, it will be at the mercy of other countries which do. There is a lack of understanding of the decision making process which inhibits simulation. Clients are likely to exert more influence in future, particularly in building management where 50% of construction workload is on maintenance and repair. Electronic building maintenance manuals are needed. IT suppliers may become more involved and even buy into construction design firms in future. Education is vital to keep the industry at the forefront of IT development and new IT distance learning techniques could help.
series journal paper
more http://www.elsevier.com/locate/autcon
last changed 2003/05/15 21:23

_id 6e46
authors Wenz, Florian and Hirschberg, Urs
year 1997
title Phase(x) - Memetic Engineering for ArchitectureArchitecture
source Challenges of the Future [15th eCAADe Conference Proceedings / ISBN 0-9523687-3-0] Vienna (Austria) 17-20 September 1997
doi https://doi.org/10.52842/conf.ecaade.1997.x.b1e
summary Phase(x) was a successful teaching experiment we made in our entry level CAAD course in the Wintersemester 1996/97. The course was entirely organized by means of a central database that managed all the students' works through different learning phases. This setup allowed that the results of one phase and one author be taken as the starting point for the work in the next phase by a different author. As students could choose which model they wanted to work with, the whole of Phase(x) could be viewed as an organism where, as in a genetic system, only the "fittest" works survived.

While some discussion of the technical set-up is necessary as a background, the main topics addressed in this paper will be the structuring in phases of the course, the experiences we had with collective authorship, and the observations we made about the memes hat developed and spread in the students' works. Finally we'll draw some conclusions in how far Phase(x) is relevant also in a larger context, that is not limited to teaching CAAD.

keywords memetic process, collaborative creative work, collective authorship, caad education
series eCAADe
email
more http://info.tuwien.ac.at/ecaade/proc/wenz/wenz.htm
last changed 2022/06/07 07:50

_id ca34
authors Mine, Mark R .
year 1997
title ISAAC: a meta-CAD system for virtual environments
source Computer-Aided Design, Vol. 29 (8) (1997) pp. 547-553
summary This paper presents a description of ISAAC; the Immersive Simulation Animation And Construction program designed and built at the University of North Carolina atChapel Hill (UNC-CH). ISAAC is a scene composition application used for the interactive construction of virtual worlds. In ISAAC you work directly in a virtualenvironment; you position, orient and scale objects using direct and indirect manipulation techniques. ISAAC stores object configurations in ASCII files that it uses torecreate scenes at a later date for further manipulation and interactive exploration. ISAAC is not a modeling program; you create worlds by manipulating pre-generatedthree-dimensional models (which can come from sources such as computer-aided design programs or three-dimensional scanning devices). ISAAC was designed toovercome some of the limitations of working in a virtual environment and to take advantage of the natural and intuitive forms of interaction available in a virtual world.
keywords Immersive Design, Object Manipulation, Virtual Environment, Interaction Techniques
series journal paper
last changed 2003/05/15 21:33

_id b5f4
authors Gero, John S. and Ding, Lan
year 1997
title Exploring Style Emergence in Architectural Designs
source CAADRIA ‘97 [Proceedings of the Second Conference on Computer Aided Architectural Design Research in Asia / ISBN 957-575-057-8] Taiwan 17-19 April 1997, pp. 287-296
summary This paper presents an evolutionary approach to style emergence in architectural designs. Emergence is the process of making features explicit which were previously only implicit. Style is considered as a set of common characteristics of a group of designs. It is interpreted using a language model as an analogy and is represented at the genetic level. An evolutionary system based on genetic engineering is developed. It emerges style by locating the genetic structures which produce that style. Preliminary results are presented.
series other
email
last changed 2003/04/06 09:26

_id sigradi2006_c012b
id sigradi2006_c012b
authors Rodriguez Barros, Diana and Carmena, Sonia
year 2006
title Estudio Descriptivo de Prácticas Padagógicas Mediadas por Tecnologías Digitales en Facultades de Arquitectura y Diseño asociadas a la buena Enseñanza [Descriptive study of pedagogical practices mediated by digital technologies in school of architecture and design, associated to the good education]
source SIGraDi 2006 - [Proceedings of the 10th Iberoamerican Congress of Digital Graphics] Santiago de Chile - Chile 21-23 November 2006, pp. 191-194
summary It is presented a descriptive type study link to the documentary investigation. It is considers to understand, interpretate and critically reconstruct the present practices of proyectual education in studio of school of architecture and design of the region in virtual surroundings, tie to good education. It was used the Burbules & Callister (2001) new emergent postecnocratic approach. It is boarded from the perspective of the authors, in its natural scenes, in its all complexity and its implicances. One worked with a quanti-qualitative methodology, where revision techniques, analysis, evaluation and interpretation of documental textual and visual materials from primary sources were integrated. One has been based on the selection of exposed works in Sigradi congresses, since its creation in 1997 to the present, with extended and updated versions of the authors. As conclusions are recognized professors that show expertise and disciplinar control, that develop investigation tasks tie to the education practices, that incorporate technologies valuating limitations and advantages, and that has recognized the multiple implicit effects in the technologically mediated practices.
series SIGRADI
email
last changed 2016/03/10 09:59

_id a9d4
authors Stander, B.T. and Hart, J.C.
year 1997
title Guaranteeing the Topology of an Implicit Surface Polygonization for Interactive Modeling
source Computer Graphics, no. 31, pp. 279-286
summary Morse theory shows how the topology of an implicit surface is affected by its function's critical points, whereas catastrophe theory shows how these critical points behave as the function's parameters change. Interval analysis finds the critical points, and they can also be tracked efficiently during parameter changes. Changes in the function value at these critical points cause changes in the topology. Techniques for modifying the polygonization to accommodate such changes in topology are given. These techniques are robust enough to guarantee the topology of an implicit surface polygonization, and are efficient enough to maintain this guarantee during interactive modeling. The impact of this work is a topologically-guaranteed polygonization technique, and the ability to directly and accurately manipulate polygonized implicit surfaces in real time.
series journal paper
last changed 2003/04/23 15:50

_id 6f61
authors Turkiyyah, G.M., Storti, D.W., Ganter, M., Hao, C. and Vimawala, M.
year 1997
title An accelerated triangulation method for computing the skeletons of free-form solid models
source Computer-Aided Design, Vol. 29 (1) (1997) pp. 5-19
summary Shape skeletons are powerful geometric abstractions that provide useful intermediate representations for a number of geometric operations on solid models includingfeature recognition, shape decomposition, finite element mesh generation, and shape design. As a result there has been significant interest in the development of effectivemethods for skeleton generation of general free-form solids. In this paper we describe a method that combines Delaunay triangulation with local numerical optimizationschemes for the generation of accurate skeletons of 3D implicit solid models. The proposed method accelerates the slow convergence of Voronoi diagrams to theskeleton, which, without optimization, would require impractically large sample point sets and resulting messhes to attain acceptable accuracy. The Delaunaytriangulation forms the basis for generating the topological structure of the skeleton. The optimization step of the process generates the geometry of the skeleton patchesby moving the vertices of Delaunay tetrahedra and relocating their centres to form maximally inscribed spheres. The computational advantage of the optimization schemeis that it involves the solution of one small optimization problem per tetrahedron and its complexity is therefore only linear (O(n)) in the number of points used for theskeleton approximation. We demonstrate the effectiveness of the method on a number of representative solid models.
keywords Skeleton Generation, Medial Axis, Delaunay Triangulation, Surface Curvature, Implicit Solid Models
series journal paper
last changed 2003/05/15 21:33

_id 34b8
authors Batie, D.L.
year 1997
title The incorporation of construction history in architectural history: the HISTCON interactive computer program
source Automation in Construction 6 (4) (1997) pp. 275-285
summary Current teaching methods for architectural history seldom embrace building technology as an essential component of study. Accepting the premise that architectural history is a fundamental component to the overall architectural learning environment, it is argued that the study of construction history will further enhance student knowledge. This hypothesis created an opportunity to investigate how the study of construction history could be incorporated to strengthen present teaching methods. Strategies for teaching architectural history were analyzed with the determination that an incorporation of educational instructional design applications using object-oriented programming and hypermedia provided the optimal solution. This evaluation led to the development of the HISTCON interactive, multimedia educational computer program. Used initially to teach 19th Century iron and steel construction history, the composition of the program provides the mechanism to test the significance of construction history in the study of architectural history. Future development of the program will provide a method to illustrate construction history throughout the history of architecture. The study of architectural history, using a construction oriented methodology, is shown to be positively correlated to increased understanding of architectural components relevant to architectural history and building construction.
series journal paper
more http://www.elsevier.com/locate/autcon
last changed 2003/05/15 21:22

_id aa2f
authors Carrara, G., Fioravanti, A. and Novembri, G.
year 1997
title An Intelligent Assistant for the Architectural Design Studio
source Challenges of the Future [15th eCAADe Conference Proceedings / ISBN 0-9523687-3-0] Vienna (Austria) 17-20 September 1997
doi https://doi.org/10.52842/conf.ecaade.1997.x.a3a
summary It seems by now fairly accepted by many researchers in the field of the Computer Aided Design that the way to realise support tools for the architectural design is by means of the realisation of Intelligent Assistants. This kind of computer program, based on the Knowledge Engineering and machine learning, finds his power and effectiveness by the Knowledge Base on which it is based. Moreover, it appears evident that the modalities of dialogue among architects and operators in the field of building industry, are inadequate to support the exchange of information that the use of these tools requires.

In fact, many efforts at international level are in progress to define tools in order to make easier the multiple exchange of information in different fields of building design. Concerning this point, protocol and ontology of structured information interchanges constitute the first steps in this sense, e.g. those under standardisation by ISO (STEP), PDT models and Esprit project ToCEE. To model these problems it has brought forth a new research field: the collaborative design one, an evolution of distributed work and concurrent design.

The CAAD Laboratory of Dipartimento di Architettura and Urbanistica per l'Ingegneria has carried out a software prototype, KAAD, based on Knowledge Engineering in the fields of hospital building and of building for aged people. This software is composed by an Interface, a Knowledge Base, a Database and Constraints. The Knowledge Base has been codified by using the formal structure of frames, and has been implemented by the Lisp language. All the elements of KB are objects

keywords Design Studio
series eCAADe
email
more http://info.tuwien.ac.at/ecaade/proc/carrara/carrara.htm
last changed 2022/06/07 07:50

_id c1ad
authors Cheng, Nancy Yen-wen
year 1997
title Teaching CAD with Language Learning Methods
source Design and Representation [ACADIA ‘97 Conference Proceedings / ISBN 1-880250-06-3] Cincinatti, Ohio (USA) 3-5 October 1997, pp. 173-188
doi https://doi.org/10.52842/conf.acadia.1997.173
summary By looking at computer aided design as design communication we can use pedagogical methods from the well-developed discipline of language learning. Language learning breaks down a complex field into attainable steps, showing how learning strategies and attitudes can enhance mastery. Balancing the linguistic emphases of organizational analysis, communicative intent and contextual application can address different learning styles. Guiding students in learning approaches from language study will equip them to deal with constantly changing technology.

From overall curriculum planning to specific exercises, language study provides a model for building a learner-centered education. Educating students about the learning process, such as the variety of metacognitive, cognitive and social/affective strategies can improve learning. At an introductory level, providing a conceptual framework and enhancing resource-finding, brainstorming and coping abilities can lead to threshold competence. Using kit-of-parts problems helps students to focus on technique and content in successive steps, with mimetic and generative work appealing to different learning styles.

Practicing learning strategies on realistic projects hones the ability to connect concepts to actual situations, drawing on resource-usage, task management, and problem management skills. Including collaborative aspects in these projects provides the motivation of a real audience and while linking academic study to practical concerns. Examples from architectural education illustrate how the approach can be implemented.

series ACADIA
email
last changed 2022/06/07 07:55

_id f758
authors DeMers, Michael
year 1997
title Fundamentals of GIS
source New York: John Wiley & Sons
summary Explicit learning objectives at the beginning of each chapter detail precisely what students will be expected to know, allowing professors to create lesson plans and strategies to match. End of chapter questions test students' knowledge of key concepts. Web page provides additional learning materials for students and data sources and other teaching materials for instructors.
series other
last changed 2003/04/23 15:14

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