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	ddss9825
id	ddss9825
authors	Hartog, J. P. den, Koutamanis, A. and Luscuere, P. G.
year	1998
title	Simulation and evaluation of environmental aspects throughout the designprocess
source	Timmermans, Harry (Ed.), Fourth Design and Decision Support Systems in Architecture and Urban Planning Maastricht, the Netherlands), ISBN 90-6814-081-7, July 26-29, 1998
summary	The evaluation of environmental aspects in architectural design has traditionally been performed by means of simple (and often simplistic) rule systems. These generally remain at the normative level of minimal control one encounters in building rules and regulations, thereby failing to provide sufficient information and clarity for design guidance. Despite this, evaluation results normally bound subsequent design decisions as fundamental, inflexible constraints. At much later design stages, whenarchitectural form has been largely crystallized and when environmental subsystems must be specified in detail, both the architect and the contributing engineers often realize the severe limitation of theinitial choices. A frequently voiced argument for such simplification in the guise of abstraction is the lack of detailed information on the form and functional content of a building in the early stages of the designprocess. This obviously presupposes a tabula rasa generative approach. The application of a priori knowledge in the form of types, cases, precedents and automated recognition permits direct transaction from the abstract to the specific at and between a number of predefined relevant abstraction levels in the representation. The combination of a priori knowledge at the typological level with multilevel representations permits the use of precise simulation techniques already in the early design stages and throughout thedesign process. The simulation results employ the dual representation principle of scientific visualization, thereby linking form with measurable performance. Feedback from the simulation provides the analysis and evaluation means for design guidance and for communication between thearchitect and the contributing engineers. A prerequisite to this is that the abstraction level in the representation constrains the analysis derived from the simulation, e.g., by means of grades of fuzziness applied to different zones in the representation on the basis of information specificity.
series	DDSS
last changed	2003/08/07 16:36

_id	0fbd
authors	Hartog, J.P., Koutamanis, A. and Luscuere, P.G.
year	1998
title	Simulation and evaluation of environmental aspects throughout the design process
source	4th Design and Decision Support Systems in Architecture and Urban Planning Conference. Eindhoven
summary	The evaluation of environmental aspects in architectural design has traditionally been performed by means of simple (and often simplistic) rule systems. These generally remain at the normative level of minimal control one encounters in building rules and regulations, thereby failing to provide sufficient information and clarity for design guidance. Despite this, evaluation results normally bound subsequent design decisions as fundamental, inflexible constraints. At much later design stages, when architectural form has been largely crystallized and when environmental subsystems must be specified in detail, both the architect and the contributing engineers often realize the severe limitation of the initial choices. A frequently voiced argument for such simplification in the guise of abstraction is the lack of detailed information on the form and functional content of a building in the early stages of the design process. This obviously presupposes a tabula rasa generative approach. The application of a priori knowledge in the form of types, cases, precedents and automated recognition permits direct transaction from the abstract to the specific at and between a number of predefined relevant abstraction levels in the representation. The combination of a priori knowledge at the typological level with multilevel representations permits the use of precise simulation techniques already in the early design stages and throughout the design process. The simulation results employ the dual representation principle of scientific visualization, thereby linking form with measurable performance. Feedback from the simulation provides the analysis and evaluation means for design guidance and for communication between the architect and the contributing engineers. A prerequisite to this is that the abstraction level in the representation constrains the analysis derived from the simulation, e.g., by means of grades of fuzziness applied to different zones in the representation on the basis of information specificity.
series	other
email
last changed	2003/04/23 15:50

_id	10f9
authors	Kvan, Th., West, R. and Vera, A.
year	1998
title	Tools and Channels of Communication
source	International Journal of Virtual Reality, 3:3, 1998, pp. 21-33
summary	This paper proposes a methodology to evaluate the effects of computer-mediated communication on collaboratively solving design problems. When setting up a virtual design community; choices must be made between a variety of tools; choices dictated by budget; bandwidth; ability and availability. How do you choose between the tools; which is useful and how will each affect the outcome of the design exchanges you plan? A commonly used method is to analyze the work done and to identify tools which support this type of work. In general; research on the effects of computer-mediation on collaborative work has concentrated mainly on social-psychological factors such as deindividuation and attitude polarization; and used qualitative methods. In contrast; we propose to examine the process of collaboration itself; focusing on separating those component processes which primarily involve individual work from those that involve genuine interaction. Extending the cognitive metaphor of the brain as a computer; we view collaboration in terms of a network process; and examine issues of control; coordination; and delegation to separate sub-processors. Through this methodology we attempt to separate the individual problem-solving component from the larger process of collaboration.
keywords	Expertise; Collaboration; Novice
series	journal paper
email
last changed	2002/11/15 18:29

_id	aa52
authors	Chiu, Mao-Lin
year	1998
title	The Design Guidance of CSCW - Learning from Collaborative Design Studios
source	CAADRIA ‘98 [Proceedings of The Third Conference on Computer Aided Architectural Design Research in Asia / ISBN 4-907662-009] Osaka (Japan) 22-24 April 1998, pp. 261-270
doi	https://doi.org/10.52842/conf.caadria.1998.261
summary	Computer supported collaborative work (CSCW) becomes important for the architectural practice and design education in recent years. Design guidance on design operations facilitates design studios to achieve their educational and research purposes. This study depicts the experience of computer-supported collaborative design learned from three collaborative design studios. Design guidance can advise participants to understand the purpose of communication in CSCW, anticipate design collaboration, and formulate design operations by the process model. Based on the observations of CDS, the discussion focuses on how to develop guidance on design operations according to the following factors: (1) structured framework, (2) the kind of technology, (3) the level of communication, and (4) the process model of CSCW.
series	CAADRIA
email
more	http://www.caadria.org
last changed	2022/06/07 07:56

_id	aac0
authors	Garcia, Renato
year	1998
title	Structural Feel or Feelings for Structure? - Stirring Emotions through the Computer Interface in Behaviour Analysis of Building Structures
source	CAADRIA ‘98 [Proceedings of The Third Conference on Computer Aided Architectural Design Research in Asia / ISBN 4-907662-009] Osaka (Japan) 22-24 April 1998, pp. 163-171
doi	https://doi.org/10.52842/conf.caadria.1998.163
summary	The use of computers in the analysis of architectural structures has at present become indispensable and fairly routine. Researchers & professionals in architecture and engineering have taken advantage of current computer technology to develop richer and more comprehensive interactive interfaces in systems designed to analyse structural behaviour. This paper discusses a research project which attempts to further enrich such computer interfaces by embodying emotion or mood (affective) components into them and assessing the effects of incorporating these into multimodal learning modules for students of architecture at the University of Hong Kong. Computer structural analysis is most often used to determine the final state of a structure after full loading, but can also be used very ably to depict the time-history behaviour of a structure. The time-dependent nature of this process of behaviour provides an excellent opportunity to incorporate emotion cues for added emphasis and reinforcement. Studying time-history behaviour of structures is a vital part of classroom learning in structures and this why such emotion cues can have significant impact in such an environment. This is in contrast to the confines of professional engineering practices where these cues may not be as useful or desirable because oftentimes intermediate time history data is bypassed as a blackbox and focus is placed primarily on bottomline analysis results. The paper will discuss the fundamental basis for the establishment of emotional cues in this project as well as it's implementation-which consists mainly of two parts. The first involves 'personifying' the structure by putting in place a structure monitoring system analogous to human vital signs. The second involves setting up a 'ladder' of emotion states (which vary from feelings of serenity to those of extreme anxiety) mapped to the various states of a structures stability or condition. The paper will further elaborate on how this is achieved through the use of percussion, musical motifs, and chord progression in resonance with relevant graphical animations. Initially in this project, emotion cues were used to reinforce two structural behaviour tutoring systems developed by this author (3D Catenary Stuctures module & Plastic Behaviour of Semi-rigid Steel Frames module). These modules were ideal for implementing these cues because both depicted nonlinear structural behaviour in a mainly time-history oriented presentation. A brief demonstration of the actual learning modules used in the project study will also be presented together with a discussion of the assessment of it's effectiveness in actual classroom teaching.
keywords	Affective Interfaces, Human-Computer Interaction, Computer-Aided-Engineering
series	CAADRIA
email
more	http://www.caadria.org
last changed	2022/06/07 07:50

_id	1873
authors	Ji, Guohua and Feng, Jinlong
year	1999
title	Structural Approach to the Organization of Information: A Teaching Experiment at SEU
source	CAADRIA '99 [Proceedings of The Fourth Conference on Computer Aided Architectural Design Research in Asia / ISBN 7-5439-1233-3] Shanghai (China) 5-7 May 1999, pp. 153-159
doi	https://doi.org/10.52842/conf.caadria.1999.153
summary	Design studio still plays a very important role in architectural design education today since teachers and students can exchange their thinking directly. In the whole teaching/learning process, there are a lot of information to be exchanged between the teachers and the students. How to organize the information and record the whole teaching/learning process is very interesting to us. The increasing use of CAD raises some problems with its advantages when the amount of compute-files becomes very big and they are in different formats. In the third year design studio teaching in the academic year 1998/99 at Department of Architecture in Southeast University, we try to use WWW techniques and features to organise the design information. We try to integrate the teaching programme, the project information, the reference material and the students' work together, to record and monitor the teaching process. Since the teaching programme is clearly organised, we could use some strategies and ideas to control the organisation of file storage and presentation. It creates the basis for the further development of applying network to aid the studio teaching.
series	CAADRIA
last changed	2022/06/07 07:52

_id	807b
authors	Kalisperis, Loukas N. and Pehlivanidou-Liakata, Anastasia
year	1998
title	Architectural Design Studio: Digital and Traditional
source	Computers in Design Studio Teaching [EAAE/eCAADe International Workshop Proceedings / ISBN 09523687-7-3] Leuven (Belgium) 13-14 November 1998, pp. 73-81
doi	https://doi.org/10.52842/conf.ecaade.1998.073
summary	The nature of the task of representing architecture alters to reflect the state of architecture at each period of time. In simulating architecture, the necessary conversion from that which is inhabitable, experiential, functional, and at times, indescribable to an abstraction in an entirely different media is often an imperfect procedure that centers on its translation rather than the actual design. The objective in visualizing any architectural design is to achieve a situational awareness that allows for meaningful criticism of the design. Computer-aided three-dimensional (3D) visualization technology has made available new representation techniques. Surpassing the traditional means of graphic illustration and scaled models, this technology has been primarily developed to decrease the amount of abstraction between architecture and its documentation. The general objective of this paper is to present a study carried out over the last six years in which the progress of students in a traditional studio was compared to the progress of similar students in a digital studio. We have assessed the effects of the tools over the six-year period (24 different projects) by evaluating solution-generation in trial-and-error process and learning problem-solving strategies based on the Cognitive Flexibility Theory paradigm. Students using the digital studio were found to generate more and various solutions consistently.
series	eCAADe
email
more	http://www.eaae.be/
last changed	2022/06/07 07:52

_id	4e6b
authors	Kavakli, Manolya
year	1998
title	An IT-based Strategy For Design Education: Knowledge Engineering
source	Computerised Craftsmanship [eCAADe Conference Proceedings] Paris (France) 24-26 September 1998, pp. 101-109
doi	https://doi.org/10.52842/conf.ecaade.1998.101
summary	University education is considered to be a "knowledge industry" in a knowledge society. In this paper we describe education as the knowledge transfer from one intelligent system to another, and draw upon the experience in Artificial Intelligence in order to apply it as an active knowledge acquisition strategy for the use of Human Intelligence. In current educational strategies, too often students are treated as passive recipients of knowledge unlike their counterparts (knowledge engineers) in Artificial Intelligence. In design education, we should be concerned with providing students the ability to extract the acquired knowledge from their teachers. In this paper, we put six hypotheses and prove each of them by discussing the methodology of Knowledge Acquisition to improve the process of design education. For an active learning strategy in Knowledge Acquisition, we turn to the wealth of experience made in Knowledge Engineering. In our analogy, we consider students to be Knowledge Engineers, designers to be Knowledge Based Systems, teachers to be the domain experts, and the learning process to equal the Knowledge Acquisition process in Expert System development. Thus, we suggest the use of Knowledge Engineering methods in the acquisition of design knowledge to build a knowledge base. A well-defined knowledge base represented in a Knowledge Based System can serve as a reasoning mechanism for the design actions that are unteachable in characteristics.
series	eCAADe
more	http://www.paris-valdemarne.archi.fr/archive/ecaade98/html/16kavakli/index.htm
last changed	2022/06/07 07:52

_id	ga9809
id	ga9809
authors	Kälviäinen, Mirja
year	1998
title	The ideological basis of generative expression in design
source	International Conference on Generative Art
summary	This paper will discuss issues concerning the design ideology supporting the use and development of generative design. This design ideology is based on the unique qualities of craft production and on the forms or ideas from nature or the natural characteristics of materials. The main ideology presented here is the ideology of the 1980´s art craft production in Finland. It is connected with the general Finnish design ideology and with the design ideology of other western countries. The ideology for these professions is based on the common background of design principles stated in 19th century England. The early principles developed through the Arts and Crafts tradition which had a great impact on design thinking in Europe and in the United States. The strong continuity of this design ideology from 19th century England to the present computerized age can be detected. The application of these design principles through different eras shows the difference in the interpretations and in the permission of natural decorative forms. The ideology of the 1980ïs art craft in Finland supports the ideas and fulfilment of generative design in many ways. The reasons often given as the basis for making generative design with computers are in very many respects the same as the ideology for art craft. In Finland there is a strong connection between art craft and design ideology. The characteristics of craft have often been seen as the basis for industrial design skills. The main themes in the ideology of the 1980´s art craft in Finland can be compared to the ideas of generative design. The main issues in which the generative approach reflects a distinctive ideological thinking are: Way of Life: The work is the communication of the maker´s inner ideas. The concrete relationship with the environment, personality, uniqueness, communication, visionary qualities, development and growth of the maker are important. The experiments serve as a media for learning. Taste and Aesthetic Education: The real love affair is created by the non living object with the help of memories and thought. At their best objects create the basis in their stability and communication for durable human relationships. People have warm relationships especially with handmade products in which they can detect unique qualities and the feeling that the product has been made solely for them. Counter-culture: The aim of the work is to produce alternatives for technoburocracy and mechanical production and to bring subjective and unique experiences into the customerïs monotonious life. This ideology rejects the usual standardized mass production of our times. Mythical character: There is a metamorphosis in the birth of the product. In many ways the design process is about birth and growth. The creative process is a development story of the maker. The complexity of communication is the expression of the moments that have been lived. If you can sense the process of making in the product it makes it more real and nearer to life. Each piece of wood has its own beauty. Before you can work with it you must find the deep soul of its quality. The distinctive traits of the material, technique and the object are an essential part of the metamorphosis which brings the product into life. The form is not only for formïs sake but for other purposes, too. You cannot find loose forms in nature. Products have their beginnings in the material and are a part of the nature. This art craft ideology that supports the ideas of generative design can be applied either to the hand made crafts production or to the production exploiting new technology. The unique characteristics of craft and the expression of the material based development are a way to broaden the expression and forms of industrial products. However, for a crafts person it is not meaningful to fill the world with objects. In generative, computer based production this is possible. But maybe the production of unique pieces is still slower and makes the industrial production in that sense more ecological. People will be more attached to personal and unique objects, and thus the life cycle of the objects produced will be longer.
series	other
email
more	http://www.generativeart.com/
last changed	2003/08/07 17:25

_id	280e
authors	Park, Taeyeol and Miranda, Valerian
year	1998
title	Development of a Computer-Assisted Instruction System for Information Communication in Design Studio
source	CAADRIA ‘98 [Proceedings of The Third Conference on Computer Aided Architectural Design Research in Asia / ISBN 4-907662-009] Osaka (Japan) 22-24 April 1998, pp. 47-56
doi	https://doi.org/10.52842/conf.caadria.1998.047
summary	Design studio is the core of architectural education. An essential part of designing is using information and knowledge obtained from non-studio courses. However, as the complexity of buildings increases, the amount of this information increases and there is a danger that essential design information may be ruined and overlooked because of time and place constraints. As a means to bridge the gap between non-studio courses and design studios, some architectural educators suggest that design studios should bring knowledge to students in the process of designing so that they can apply this knowledge to their design. Most architectural studios, however, do not do enough to bring knowledge systematically into design projects when appropriate. Design projects generate need for additional knowledge about a number of topics, but too few studios systematically make knowledge available. Design studios should consider ways in which knowledge for design projects is integrally made available at the appropriate time. This paper describes a model for the delivery of design studio information which can be integral with any design projects. The model is demonstrated by a computer-assisted instruction (CAI) system designed and placed on the Web to introduce basic structural concepts and to teach an in-depth concept of spatial composition in a design studio and reports on its development, implementation, and testing. The system relies on many issues, such as access to relevant information, links between lessons for different subjects, representation of various design concepts, effective instructional methods for learning concepts, etc., which might be critical elements of designing an information communication system for design studio instruction. This paper tests the effectiveness of the system based on the results from responses of design studio students and observations of the researcher and the studio instructor, and concludes with the information that we hope will be useful in developing CAI materials for reflecting and acquiring information on a number of different subjects that have relevance to architectural design.
keywords	Computer-assisted Instruction (CAI), Design Studio Teaching, Information Delivery System
series	CAADRIA
email
more	http://www.caadria.org
last changed	2022/06/07 07:59

_id	47
authors	Pimentel, Diego and Mendez, Ricardo
year	1998
title	Incorporacion de Nuevos Soportes Tecnologicos en la EnseÒanza del DiseÒo Grafico (Introduction of New Tecnologies of Supports in the Teaching of Graphic Design)
source	II Seminario Iberoamericano de Grafico Digital [SIGRADI Conference Proceedings / ISBN 978-97190-0-X] Mar del Plata (Argentina) 9-11 september 1998, pp. 350-357
summary	Development of a methodological strategy for the inclusion of new communication digital media to the Design course pedagogical process. How to introduce to the Graphic Design degree learning an strategy that includes the new communication technological support. Development of a practical exercise with real implementation in a last generation media. Institutional FADU Website design. From pre-impression to the pixel.
series	SIGRADI
last changed	2016/03/10 09:57

_id	ga9813
id	ga9813
authors	Pontecorvo, Michael Steven
year	1998
title	Designing the Undesigned: Emergence as a tool for design
source	International Conference on Generative Art
summary	Design, as an act and a result, is a natural part of the larger biological context in which we live. It is both a behavior and a tangible side effect of the organic system from which it arises. A design can be characterized as a physical exemplar of the concept of memes, the 'genetic' building blocks of ideas or units of cultural transmission. In this capacity, design has served to extend humankind's reach and ensure and enrich humankind's survival in the full range and variability of conditions the Earth has to offer. In a very real sense, design has 'evolved' its own rich ecosystem, with a robust diversity of elements, dynamics, and interrelationships rivaling that of the organic system from which it derives. In the ecology of design, designs obey laws analogous to the laws of survival and selection that organisms in nature obey. Given the recent advances in understanding and modeling of the biological and physical systems, it is not surprising that artists and designers are now turning to these models as a 'new' resource for the conceptualization and design of structured artifacts and spaces. While there are many fundamental technical issues surrounding development and application of generative models and processes, the relationship of artist to the process of creation is a central issue in the scaling up and widespread accessibility/acceptance of the generative approach. This paper will present a set of observations from the perspective of a small company of artist/ technologists trying to bridge the commercial and artistic application of generative processes. Specifically, the paper will explore some approaches to the designer/system relationship and process control metaphor, the balancing of serendipity and design convergence, the definitions and representations of design spaces, and finally, present some ideas about the future prospects and promising new techniques for generative design.
series	other
email
more	http://www.generativeart.com/
last changed	2003/08/07 17:25

_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	51
authors	Rueda, Marta Adriana
year	1998
title	Complementacion de Herramientas Digitales y Artesanales en los Procesos de Aprendizaje del Diseño Textil (Complementation de Digital and Manual Tools in the Processes of Learning Textile Design)
source	II Seminario Iberoamericano de Grafico Digital [SIGRADI Conference Proceedings / ISBN 978-97190-0-X] Mar del Plata (Argentina) 9-11 september 1998, pp. 380-387
summary	The repetition of units for the configuration of one coherent and produced whole, is an included problem in most of the Design disciplines. In the case of Textile Design, both the surface decoration and the itself fabric construction are technologically conditioned from the industrial production, because it must be repeated the printed signs as much as the fabric structures that support it. In the formative process to the product textile design it is essential the training for the motives distribution in the bidimensional space. Because of that the experimentation volume that it is realized in the first levels of the design learning must cover all the operations to generate motives, to repeat it and to relate it, to establish the global structures and the possible languages to the configuration. The digital media as a complement of the traditional manual technical expand the experimental horizon and with it the students make a trip in all the possibilities of rhythms and technical and like this check at full speed the composition alternatives, just as change the relative positions of the parts, the contrast, tones, values, colors, stresses, textures, etc.
series	SIGRADI
email
last changed	2016/03/10 09:59

_id	497c
authors	Savage, J., Miles, C., Moore, C. and Miles, J.
year	1998
title	The interaction of time and cost constraints on the design process
source	Design Studies, 19[2]: 217-233, Apr
summary	This paper reports an experimental study investigating the influence of both `external' and `task inherent' constraints on simple design tasks. Subjects were required to complete each of 3 tasks in one of 4 conditions. The conditions comprised a control condition (no time or cost constraints imposed), a time constrained condition, a cost constrained condition and a time and cost constrained condition. The tasks required subjects to build structures predominantly from sheets of A4. For example, task one required subjects to `create a self supporting structure, which has a minimum height of 19 cm.' The pattern of results showed that the constraints of time and cost affected the design process both independently and in combination. In addition, the range of designs, completion times, and design costs were all affected differentially.
series	journal paper
last changed	2003/04/23 15:50

_id	avocaad_2001_20
id	avocaad_2001_20
authors	Shen-Kai Tang
year	2001
title	Toward a procedure of computer simulation in the restoration of historical architecture
source	AVOCAAD - ADDED VALUE OF COMPUTER AIDED ARCHITECTURAL DESIGN, Nys Koenraad, Provoost Tom, Verbeke Johan, Verleye Johan (Eds.), (2001) Hogeschool voor Wetenschap en Kunst - Departement Architectuur Sint-Lucas, Campus Brussel, ISBN 80-76101-05-1
summary	In the field of architectural design, “visualization¨ generally refers to some media, communicating and representing the idea of designers, such as ordinary drafts, maps, perspectives, photos and physical models, etc. (Rahman, 1992; Susan, 2000). The main reason why we adopt visualization is that it enables us to understand clearly and to control complicated procedures (Gombrich, 1990). Secondly, the way we get design knowledge is more from the published visualized images and less from personal experiences (Evans, 1989). Thus the importance of the representation of visualization is manifested.Due to the developments of computer technology in recent years, various computer aided design system are invented and used in a great amount, such as image processing, computer graphic, computer modeling/rendering, animation, multimedia, virtual reality and collaboration, etc. (Lawson, 1995; Liu, 1996). The conventional media are greatly replaced by computer media, and the visualization is further brought into the computerized stage. The procedure of visual impact analysis and assessment (VIAA), addressed by Rahman (1992), is renewed and amended for the intervention of computer (Liu, 2000). Based on the procedures above, a great amount of applied researches are proceeded. Therefore it is evident that the computer visualization is helpful to the discussion and evaluation during the design process (Hall, 1988, 1990, 1992, 1995, 1996, 1997, 1998; Liu, 1997; Sasada, 1986, 1988, 1990, 1993, 1997, 1998). In addition to the process of architectural design, the computer visualization is also applied to the subject of construction, which is repeatedly amended and corrected by the images of computer simulation (Liu, 2000). Potier (2000) probes into the contextual research and restoration of historical architecture by the technology of computer simulation before the practical restoration is constructed. In this way he established a communicative mode among archeologists, architects via computer media.In the research of restoration and preservation of historical architecture in Taiwan, many scholars have been devoted into the studies of historical contextual criticism (Shi, 1988, 1990, 1991, 1992, 1995; Fu, 1995, 1997; Chiu, 2000). Clues that accompany the historical contextual criticism (such as oral information, writings, photographs, pictures, etc.) help to explore the construction and the procedure of restoration (Hung, 1995), and serve as an aid to the studies of the usage and durability of the materials in the restoration of historical architecture (Dasser, 1990; Wang, 1998). Many clues are lost, because historical architecture is often age-old (Hung, 1995). Under the circumstance, restoration of historical architecture can only be proceeded by restricted pictures, written data and oral information (Shi, 1989). Therefore, computer simulation is employed by scholars to simulate the condition of historical architecture with restricted information after restoration (Potier, 2000). Yet this is only the early stage of computer-aid restoration. The focus of the paper aims at exploring that whether visual simulation of computer can help to investigate the practice of restoration and the estimation and evaluation after restoration.By exploring the restoration of historical architecture (taking the Gigi Train Station destroyed by the earthquake in last September as the operating example), this study aims to establish a complete work on computer visualization, including the concept of restoration, the practice of restoration, and the estimation and evaluation of restoration.This research is to simulate the process of restoration by computer simulation based on visualized media (restricted pictures, restricted written data and restricted oral information) and the specialized experience of historical architects (Potier, 2000). During the process of practicing, communicates with craftsmen repeatedly with some simulated alternatives, and makes the result as the foundation of evaluating and adjusting the simulating process and outcome. In this way we address a suitable and complete process of computer visualization for historical architecture.The significance of this paper is that we are able to control every detail more exactly, and then prevent possible problems during the process of restoration of historical architecture.
series	AVOCAAD
email
last changed	2005/09/09 10:48

_id	44e0
authors	Weishar, Peter
year	1998
title	Digital Space: Designing Virtual Environments
source	New York: McGraw-Hill
summary	Take control of the latest technology in 3D design with this comprehensive guide for architects, designers, illustrators, and graphics professionals. Digital Space provides start-to-finish, how-to instructions of 3D design that close the gap between software manuals and traditional architecture and design books. Chapters include: industry overview...planning...space design...modeling...lighting...textures...interior space...exterior space...rendering...tips and techniques...glossary of terms. The non-technical language and abundant illustrations make Digital Space: Designing Virtual Environments one of the most accessible guides to 3D design on the market. From basic concepts to sophisticated applications, it covers: the design process; optimal working techniques; 3D modeling; methods of streamlining complex tasks; real world case studies; extensive interviews with famous 3D artists.
series	other
last changed	2003/04/23 15:14

_id	2539
authors	Neuckermans, H., De Ridder, T. and Geebelen, B.
year	1998
title	Speech-Driven Computer-Aided Design - Innovation in Human-Computer Interaction
source	CAADRIA ‘98 [Proceedings of The Third Conference on Computer Aided Architectural Design Research in Asia / ISBN 4-907662-009] Osaka (Japan) 22-24 April 1998, pp. 309-316
doi	https://doi.org/10.52842/conf.caadria.1998.309
summary	The use of computers in architectural design has shifted from what initially was a very numerical approach into a graphical way and thus into a designerly way of working. Through the extensive use of WIMPs CAAD packages today are more or less user-friendly. In the meantime the ever increasing functionality of those packages inflate the number of commands, actions, options and choices which have to be activated with the mouse in order to generate a structured drawing. As a result packages become rather cumbersome to handle. In this research we have explored a new medium, namely speech, to tell the machine what to do. With software for speech recognition and making use of a head-mounted microphone we have built a far more user-friendly way of handling a CAD package. Grids, snap, ortho, layers, settings and other commands that can be used in combination with mouse actions are activated and deactivated by voice command. We are convinced that this is a step further towards a more easy and natural way of using computers while designing and certainly a way for speeding up the modeling of real architecture. The experiment has been conducted for AutoCAD with the software for speech recognition by Lernout & Hauspie. This new way of working is not limited to architecture and the principle can be used right now for any other package, provided it has a programming interface.
keywords	Electronic Design Media, Human-Computer Interaction, Design
series	CAADRIA
email
more	http://www.caadria.org
last changed	2022/06/07 07:58

_id	e336
authors	Achten, H., Roelen, W., Boekholt, J.-Th., Turksma, A. and Jessurun, J.
year	1999
title	Virtual Reality in the Design Studio: The Eindhoven Perspective
source	Architectural Computing from Turing to 2000 [eCAADe Conference Proceedings / ISBN 0-9523687-5-7] Liverpool (UK) 15-17 September 1999, pp. 169-177
doi	https://doi.org/10.52842/conf.ecaade.1999.169
summary	Since 1991 Virtual Reality has been used in student projects in the Building Information Technology group. It started as an experimental tool to assess the impact of VR technology in design, using the environment of the associated Calibre Institute. The technology was further developed in Calibre to become an important presentation tool for assessing design variants and final design solutions. However, it was only sporadically used in student projects. A major shift occurred in 1997 with a number of student projects in which various computer technologies including VR were used in the whole of the design process. In 1998, the new Design Systems group started a design studio with the explicit aim to integrate VR in the whole design process. The teaching effort was combined with the research program that investigates VR as a design support environment. This has lead to increasing number of innovative student projects. The paper describes the context and history of VR in Eindhoven and presents the current set-UP of the studio. It discusses the impact of the technology on the design process and outlines pedagogical issues in the studio work.
keywords	Virtual Reality, Design Studio, Student Projects
series	eCAADe
email
last changed	2022/06/07 07:54

_id	ddss9801
id	ddss9801
authors	Achten, Henri and Leeuwen, Jos van
year	1998
title	A Feature-Based Description Technique for Design Processes: A Case Study
source	Timmermans, Harry (Ed.), Fourth Design and Decision Support Systems in Architecture and Urban Planning Maastricht, the Netherlands), ISBN 90-6814-081-7, July 26-29, 1998
summary	In order to develop appropriate tools for decision support in design processes, it is necessary to found them on an understanding of design. Analytical techniques of design processes that have a direct relationship with tool development can enhance design support systems development. The paper focuses on a design support system in the VR-DIS research program. The aim of this research program is to develop insight in the architectural design process and to establish design tools for architectsworking in Virtual Reality. The basic approach for data modelling in VR in this research is based on an extension of the Feature Based Modelling paradigm taken from design in mechanical engineering. The computer model of the design in the system is a Feature-based model. This paper describes design processes in terms of changes in the Feature-based model of the design. For this purpose, a case of a house design is used. Drawings in the conceptual design phase up to the preliminary design phase arestudied. Each state of the drawings is described in terms of a Feature-model. Particular design actions such as creation of spaces, definition of architectural elements, and changes during the design process can be expressed in terms of changes in the Feature-model. Because of the use of Features, the changes can be formalised in the VR-DIS system. The description in terms of Features offers an analytical toolthat leads to a functional brief for design support tools. The paper ends with a discussion of implications and future work.
series	DDSS
last changed	2003/11/21 15:15

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