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	a56e
authors	Do, Ellen Yi-Luen
year	1995
title	What's in a Diagram That a Computer Should Understand?
source	Sixth International Conference on Computer-Aided Architectural Design Futures [ISBN 9971-62-423-0] Singapore, 24-26 September 1995, pp. 469-480
summary	This paper reports on an experiment to test the feasibility of using a diagramming tool to access an architectural knowledge base. Our hypothesis is that designers only use a small set of conventional elements to make diagrams of architectural concepts. If this is true, then a scheme for retrieving information from computer knowledge bases using diagrams would work. Therefore we asked designers to make diagrams from texts, to interpret diagrams into texts, to pair diagrams and texts, and to comment on existing pairs from the case base. We found from the experiment that common features are shared between different designerís diagrams and texts.
keywords	Architectural Diagrams, Graphic Interface, Knowledge Bases
series	CAAD Futures
email
last changed	2004/10/04 07:49

_id	1bb0
authors	Russell, S. and Norvig, P.
year	1995
title	Artificial Intelligence: A Modern Approach
source	Prentice Hall, Englewood Cliffs, NJ
summary	Humankind has given itself the scientific name homo sapiens--man the wise--because our mental capacities are so important to our everyday lives and our sense of self. The field of artificial intelligence, or AI, attempts to understand intelligent entities. Thus, one reason to study it is to learn more about ourselves. But unlike philosophy and psychology, which are also concerned with AI strives to build intelligent entities as well as understand them. Another reason to study AI is that these constructed intelligent entities are interesting and useful in their own right. AI has produced many significant and impressive products even at this early stage in its development. Although no one can predict the future in detail, it is clear that computers with human-level intelligence (or better) would have a huge impact on our everyday lives and on the future course of civilization. AI addresses one of the ultimate puzzles. How is it possible for a slow, tiny brain{brain}, whether biological or electronic, to perceive, understand, predict, and manipulate a world far larger and more complicated than itself? How do we go about making something with those properties? These are hard questions, but unlike the search for faster-than-light travel or an antigravity device, the researcher in AI has solid evidence that the quest is possible. All the researcher has to do is look in the mirror to see an example of an intelligent system. AI is one of the newest disciplines. It was formally initiated in 1956, when the name was coined, although at that point work had been under way for about five years. Along with modern genetics, it is regularly cited as the ``field I would most like to be in'' by scientists in other disciplines. A student in physics might reasonably feel that all the good ideas have already been taken by Galileo, Newton, Einstein, and the rest, and that it takes many years of study before one can contribute new ideas. AI, on the other hand, still has openings for a full-time Einstein. The study of intelligence is also one of the oldest disciplines. For over 2000 years, philosophers have tried to understand how seeing, learning, remembering, and reasoning could, or should, be done. The advent of usable computers in the early 1950s turned the learned but armchair speculation concerning these mental faculties into a real experimental and theoretical discipline. Many felt that the new ``Electronic Super-Brains'' had unlimited potential for intelligence. ``Faster Than Einstein'' was a typical headline. But as well as providing a vehicle for creating artificially intelligent entities, the computer provides a tool for testing theories of intelligence, and many theories failed to withstand the test--a case of ``out of the armchair, into the fire.'' AI has turned out to be more difficult than many at first imagined, and modern ideas are much richer, more subtle, and more interesting as a result. AI currently encompasses a huge variety of subfields, from general-purpose areas such as perception and logical reasoning, to specific tasks such as playing chess, proving mathematical theorems, writing poetry{poetry}, and diagnosing diseases. Often, scientists in other fields move gradually into artificial intelligence, where they find the tools and vocabulary to systematize and automate the intellectual tasks on which they have been working all their lives. Similarly, workers in AI can choose to apply their methods to any area of human intellectual endeavor. In this sense, it is truly a universal field.
series	other
last changed	2003/04/23 15:14

_id	eff2
authors	Sinclair, Brian
year	1995
title	Architecture in the Environment: A Technology-Centered Model for Priomary, Secondary & Post-Secondary Educational Partnership
source	Computing in Design - Enabling, Capturing and Sharing Ideas [ACADIA Conference Proceedings / ISBN 1-880250-04-7] University of Washington (Seattle, Washington / USA) October 19-22, 1995, pp. 357-370
doi	https://doi.org/10.52842/conf.acadia.1995.357
summary	Societal appreciation of architecture, the environment and the role of design & planning professionals should begin early in the educational stream. Working from this premise, a model was developed which relied on a combination of learning strategies: Cognitive, Psychomotor and Affective. The project’s primary goal was to build knowledge of architecture and the environment in K-12 children, with particular emphasis on primary levels. More specifically, the ARCH was selected thematically as a strong architectonic element through which to promote a better connection with and responsibility for the environment. The educational experience comprised three sequential forms: visual history of the ARCH, physical construction using foam blocks, and finally "construction” in the computer using a multi-media interactive three-dimensionally focused program. Pedagogically the sequencing provided explanation and context, built awareness through making, and finally reinforced the lessons of the previous steps while highlighting the potential of information technology. To deliver the curriculum an installation was built at a local museum, with primary grade children arriving on field trips. Architecture faculty and students designed the curriculum and installation, including the computer modules. Secondary school students were trained, with the intention that they would in turn educate primary school students at the installation. In disseminating knowledge downwards through the various educational levels, awareness was promoted concerning the architects role, architectural elements, and the broader built environment. Using the ARCH as the theme, realization of the inter-connectedness of the environment was advanced. Through linking and learning, participants came to better understand the value of their individual contributions and the critical need for collaboration.
series	ACADIA
email
last changed	2022/06/07 07:56

_id	b914
authors	Asanowicz, Aleksander and Asanowicz, Katarzyna
year	1995
title	Designing, CAD and CAD
source	CAD Space [Proceedings of the III International Conference Computer in Architectural Design] Bialystock 27-29 April 1995, pp. 181-192
summary	The general aim of our discussion is to analyze what has been changed in design process according to introducing the computers technology. For the better understanding of the design process evolution, we should precisely define start point - the traditional design process.Let's treat it as an iteration game between a designer and user. If we assume that the designing base is a reductive strategy, we can define six stages of it: 1.) To define a need; 2.) To formulate a task; 3.) To synthesize a design proposals; 4.) To analyze and optimize; 5.) To make a presentation. // The last stage - the presentation of designing proposals is the main factor of using computers in design process and creating definition of CAD as Computer Aided Drafting. According to this interpretation CAD has included four groups of activities: A.) Geometrical modelling; B.) Analysis; C.) Revision and estimation of design proposals; D.) Technical drawing preparing. // Unfortunately it has no connections with another meaning of CAD - Computer Aided Design because concerns every stage of design process except of creation of architectural form. On the other hand, computer enables us to improve the design process by permanent perception of designing forms and dynamic control over the transforming structure. Nowadays thanks to full-function sketching workstation and software like Fractal Design Painter a computer can be useful from the moment when the first line is drawing. It is possible, that the new generation of CAD software - CAD with Personality which connects computer models with picture transformation will enable CAD to be Computer Aided Design.
series	plCAD
email
last changed	2000/01/24 10:08

_id	00ae
id	00ae
authors	Ataman, Osman
year	1995
title	Building A Computer Aid for Teaching Architectural Design Concepts
source	Computing in Design - Enabling, Capturing and Sharing Ideas [ACADIA Conference Proceedings / ISBN 1-880250-04-7] University of Washington (Seattle, Washington / USA) October 19-22, 1995, pp. 187-208
doi	https://doi.org/10.52842/conf.acadia.1995.187
summary	Building an aid for teaching architectural design concepts is the process of elaborating topics, defining problems and suggesting to the students strategies for solving those problems. I believe students in Environment and Behavior (E&B) courses at Georgia Tech can benefit greatly from a computer based educational tool designed to provide them with experiences they currently do not possess. In particular, little time in the course (outside lectures) is devoted to applying concepts taught in the course to the studio projects. The tool I am proposing provides students with an opportunity to critique architectural environments (both simple examples and previous projects) using a single concept, "affordances". This paper describes my current progress toward realizing the goal of designing a tool that will help the students to understand particular concepts and to integrate them into their designs. It is my claim that an integrative and interactive approach - creating a learning environment and making both the students and the environment mutually supportive- is fundamentally more powerful than traditional educational methods.
series	ACADIA
email
last changed	2022/06/07 07:54

_id	8f0b
authors	Bhavnani, S., Flemming, U., Forsythe, D.E., Garrett, J.H., and Shaw, D.S.
year	1995
title	Understanding and Assisting CAD Users in the Real World
source	Computing in Design - Enabling, Capturing and Sharing Ideas [ACADIA Conference Proceedings / ISBN 1-880250-04-7] University of Washington (Seattle, Washington / USA) October 19-22, 1995, pp. 209-227
doi	https://doi.org/10.52842/conf.acadia.1995.209
summary	In spite of the rapid increase in functionality and resources provided by CAD systems, productivity growth expected from their use has been difficult to achieve. Although many surveys describe this "productivity puzzle", few studies have been conducted on actual CAD users to understand its causes. In an effort to understand this issue, the first author visited a federal architectural office and observed CAD users in their natural setting using ethnographic techniques developed by cultural anthropologists. This paper describes preliminary results obtained from the study. The study revealed that users had leveled-off in their learning and experimentation and were using the CAD system in sub-optimal ways. The authors argue that this sub-optimal usage occurs because users have limited ways to learn better or different ways of executing tasks. The authors propose that CAD systems should provide active assistance, that is, intervene spontaneously with advice, assistance, and relevant information while the user interacts with the system. They conclude with some issues revealed by the study that should be considered when developing such active assistance.
series	ACADIA
email
last changed	2022/06/07 07:52

_id	4202
authors	Brown, Michael E. and Gallimore, Jennie J.
year	1995
title	Visualization of Three-Dimensional Structure During Computer-Aided Design
source	International Journal of Human-Computer Interaction 1995 v.7 n.1 pp. 37-56
summary	The visual image presented to an engineer using a computer-aided design (CAD) system influences design activities such as decision making, problem solving, cognizance of complex relationships, and error correction. Because of the three-dimensional (3-D) nature of the object being created, an important attribute of the CAD visual interface concerns the various methods of presenting depth on the display's two-dimensional (2-D) surface. The objective of this research is to examine the effects of stereopsis on subjects' ability to (a) accurately transfer to, and retrieve from, long-term memory spatial information about 3-D objects; and (b) visualize spatial characteristics in a quick and direct manner. Subjects were instructed to memorize the shape of a 3-D object presented on a stereoscopic CRT during a study period. Following the study period, a series of static trial stimuli were shown. Each trial stimulus was rotated (relative to the original) about the vertical axis in one of six 36° increments between 0° and 180°. In each trial, the subject's task was to determine, as quickly and as accurately as possible, whether the trial object was the same shape as the memorized object or its mirrored image. One of the two cases was always true. To assess the relative merits associated with disparity and interposition, the two depth cues were manipulated in a within-subject manner during the study period and during the trials that followed. Subject response time and error rate were evaluated. Improved performance due to hidden surface is the most convincing experimental finding. Interposition is a powerful cue to object structure and should not be limited to late stages of design. The study also found a significant, albeit limited, effect of stereopsis. Under specific study object conditions, adding disparity to monocular trial objects significantly decreased response time. Response latency was also decreased by adding disparity information to stimuli in the study session.
series	journal paper
last changed	2003/05/15 21:45

_id	8991
authors	Danahy, John and Hoinkes, Rodney
year	1995
title	Polytrim: Collaborative Setting for Environmental Design
source	Sixth International Conference on Computer-Aided Architectural Design Futures [ISBN 9971-62-423-0] Singapore, 24-26 September 1995, pp. 647-658
summary	This paper begins with a review of the structuring values and questions the Centre for Landscape Research (CLR) is interested in answering with its testbed software system Polytrim (and its derivatives; CLRview, CLRpaint, CLRmosaic available via anonymous ftp over the internet). The mid section of the paper serves as a guide to Polytrim's structure and implementation issues. Some of the most enduring and significant principles learned from Polytrim's use over the last six years of use in research, teaching and professional practice are introduced. The paper will end with an overview of characteristics that we believe our next generation of software should achieve. The CLR's digital library on the World-Wide Web provides an extensive Set of illustrations and detailed descriptions of the ideas and figures presented in this paper. Endnotes provide specific internet addresses for those that wish to read, see or use the system.
keywords	Dialogue, Interaction, Collaboration, Integration, Setting
series	CAAD Futures
email
last changed	2003/05/16 20:58

_id	2068
authors	Frazer, John
year	1995
title	AN EVOLUTIONARY ARCHITECTURE
source	London: Architectural Association
summary	In "An Evolutionary Architecture", John Frazer presents an overview of his work for the past 30 years. Attempting to develop a theoretical basis for architecture using analogies with nature's processes of evolution and morphogenesis. Frazer's vision of the future of architecture is to construct organic buildings. Thermodynamically open systems which are more environmentally aware and sustainable physically, sociologically and economically. The range of topics which Frazer discusses is a good illustration of the breadth and depth of the evolutionary design problem. Environmental Modelling One of the first topics dealt with is the importance of environmental modelling within the design process. Frazer shows how environmental modelling is often misused or misinterpreted by architects with particular reference to solar modelling. From the discussion given it would seem that simplifications of the environmental models is the prime culprit resulting in misinterpretation and misuse. The simplifications are understandable given the amount of information needed for accurate modelling. By simplifying the model of the environmental conditions the architect is able to make informed judgments within reasonable amounts of time and effort. Unfortunately the simplications result in errors which compound and cause the resulting structures to fall short of their anticipated performance. Frazer obviously believes that the computer can be a great aid in the harnessing of environmental modelling data, providing that the same simplifying assumptions are not made and that better models and interfaces are possible. Physical Modelling Physical modelling has played an important role in Frazer's research. Leading to the construction of several novel machine readable interactive models, ranging from lego-like building blocks to beermat cellular automata and wall partitioning systems. Ultimately this line of research has led to the Universal Constructor and the Universal Interactor. The Universal Constructor The Universal Constructor features on the cover of the book. It consists of a base plug-board, called the "landscape", on top of which "smart" blocks, or cells, can be stacked vertically. The cells are individually identified and can communicate with neighbours above and below. Cells communicate with users through a bank of LEDs displaying the current state of the cell. The whole structure is machine readable and so can be interpreted by a computer. The computer can interpret the states of the cells as either colour or geometrical transformations allowing a wide range of possible interpretations. The user interacts with the computer display through direct manipulation of the cells. The computer can communicate and even direct the actions of the user through feedback with the cells to display various states. The direct manipulation of the cells encourages experimentation by the user and demonstrates basic concepts of the system. The Universal Interactor The Universal Interactor is a whole series of experimental projects investigating novel input and output devices. All of the devices speak a common binary language and so can communicate through a mediating central hub. The result is that input, from say a body-suit, can be used to drive the out of a sound system or vice versa. The Universal Interactor opens up many possibilities for expression when using a CAD system that may at first seem very strange.However, some of these feedback systems may prove superior in the hands of skilled technicians than more standard devices. Imagine how a musician might be able to devise structures by playing melodies which express the character. Of course the interpretation of input in this form poses a difficult problem which will take a great deal of research to achieve. The Universal Interactor has been used to provide environmental feedback to affect the development of evolving genetic codes. The feedback given by the Universal Interactor has been used to guide selection of individuals from a population. Adaptive Computing Frazer completes his introduction to the range of tools used in his research by giving a brief tour of adaptive computing techniques. Covering topics including cellular automata, genetic algorithms, classifier systems and artificial evolution. Cellular Automata As previously mentioned Frazer has done some work using cellular automata in both physical and simulated environments. Frazer discusses how surprisingly complex behaviour can result from the simple local rules executed by cellular automata. Cellular automata are also capable of computation, in fact able to perform any computation possible by a finite state machine. Note that this does not mean that cellular automata are capable of any general computation as this would require the construction of a Turing machine which is beyond the capabilities of a finite state machine. Genetic Algorithms Genetic algorithms were first presented by Holland and since have become a important tool for many researchers in various areas.Originally developed for problem-solving and optimization problems with clearly stated criteria and goals. Frazer fails to mention one of the most important differences between genetic algorithms and other adaptive problem-solving techniques, ie. neural networks. Genetic algorithms have the advantage that criteria can be clearly stated and controlled within the fitness function. The learning by example which neural networks rely upon does not afford this level of control over what is to be learned. Classifier Systems Holland went on to develop genetic algorithms into classifier systems. Classifier systems are more focussed upon the problem of learning appropriate responses to stimuli, than searching for solutions to problems. Classifier systems receive information from the environment and respond according to rules, or classifiers. Successful classifiers are rewarded, creating a reinforcement learning environment. Obviously, the mapping between classifier systems and the cybernetic view of organisms sensing, processing and responding to environmental stimuli is strong. It would seem that a central process similar to a classifier system would be appropriate at the core of an organic building. Learning appropriate responses to environmental conditions over time. Artificial Evolution Artificial evolution traces it's roots back to the Biomorph program which was described by Dawkins in his book "The Blind Watchmaker". Essentially, artificial evolution requires that a user supplements the standard fitness function in genetic algorithms to guide evolution. The user may provide selection pressures which are unquantifiable in a stated problem and thus provide a means for dealing ill-defined criteria. Frazer notes that solving problems with ill-defined criteria using artificial evolution seriously limits the scope of problems that can be tackled. The reliance upon user interaction in artificial evolution reduces the practical size of populations and the duration of evolutionary runs. Coding Schemes Frazer goes on to discuss the encoding of architectural designs and their subsequent evolution. Introducing two major systems, the Reptile system and the Universal State Space Modeller. Blueprint vs. Recipe Frazer points out the inadequacies of using standard "blueprint" design techniques in developing organic structures. Using a "recipe" to describe the process of constructing a building is presented as an alternative. Recipes for construction are discussed with reference to the analogous process description given by DNA to construct an organism. The Reptile System The Reptile System is an ingenious construction set capable of producing a wide range of structures using just two simple components. Frazer saw the advantages of this system for rule-based and evolutionary systems in the compactness of structure descriptions. Compactness was essential for the early computational work when computer memory and storage space was scarce. However, compact representations such as those described form very rugged fitness landscapes which are not well suited to evolutionary search techniques. Structures are created from an initial "seed" or minimal construction, for example a compact spherical structure. The seed is then manipulated using a series of processes or transformations, for example stretching, shearing or bending. The structure would grow according to the transformations applied to it. Obviously, the transformations could be a predetermined sequence of actions which would always yield the same final structure given the same initial seed. Alternatively, the series of transformations applied could be environmentally sensitive resulting in forms which were also sensitive to their location. The idea of taking a geometrical form as a seed and transforming it using a series of processes to create complex structures is similar in many ways to the early work of Latham creating large morphological charts. Latham went on to develop his ideas into the "Mutator" system which he used to create organic artworks. Generalising the Reptile System Frazer has proposed a generalised version of the Reptile System to tackle more realistic building problems. Generating the seed or minimal configuration from design requirements automatically. From this starting point (or set of starting points) solutions could be evolved using artificial evolution. Quantifiable and specific aspects of the design brief define the formal criteria which are used as a standard fitness function. Non-quantifiable criteria, including aesthetic judgments, are evaluated by the user. The proposed system would be able to learn successful strategies for satisfying both formal and user criteria. In doing so the system would become a personalised tool of the designer. A personal assistant which would be able to anticipate aesthetic judgements and other criteria by employing previously successful strategies. Ultimately, this is a similar concept to Negroponte's "Architecture Machine" which he proposed would be computer system so personalised so as to be almost unusable by other people. The Universal State Space Modeller The Universal State Space Modeller is the basis of Frazer's current work. It is a system which can be used to model any structure, hence the universal claim in it's title. The datastructure underlying the modeller is a state space of scaleless logical points, called motes. Motes are arranged in a close-packing sphere arrangement, which makes each one equidistant from it's twelve neighbours. Any point can be broken down into a self-similar tetrahedral structure of logical points. Giving the state space a fractal nature which allows modelling at many different levels at once. Each mote can be thought of as analogous to a cell in a biological organism. Every mote carries a copy of the architectural genetic code in the same way that each cell within a organism carries a copy of it's DNA. The genetic code of a mote is stored as a sequence of binary "morons" which are grouped together into spatial configurations which are interpreted as the state of the mote. The developmental process begins with a seed. The seed develops through cellular duplication according to the rules of the genetic code. In the beginning the seed develops mainly in response to the internal genetic code, but as the development progresses the environment plays a greater role. Cells communicate by passing messages to their immediate twelve neighbours. However, it can send messages directed at remote cells, without knowledge of it's spatial relationship. During the development cells take on specialised functions, including environmental sensors or producers of raw materials. The resulting system is process driven, without presupposing the existence of a construction set to use. The datastructure can be interpreted in many ways to derive various phenotypes. The resulting structure is a by-product of the cellular activity during development and in response to the environment. As such the resulting structures have much in common with living organisms which are also the emergent result or by-product of local cellular activity. Primordial Architectural Soups To conclude, Frazer presents some of the most recent work done, evolving fundamental structures using limited raw materials, an initial seed and massive feedback. Frazer proposes to go further and do away with the need for initial seed and start with a primordial soup of basic architectural concepts. The research is attempting to evolve the starting conditions and evolutionary processes without any preconditions. Is there enough time to evolve a complex system from the basic building blocks which Frazer proposes? The computational complexity of the task being embarked upon is not discussed. There is an implicit assumption that the "superb tactics" of natural selection are enough to cut through the complexity of the task. However, Kauffman has shown how self-organisation plays a major role in the early development of replicating systems which we may call alive. Natural selection requires a solid basis upon which it can act. Is the primordial soup which Frazer proposes of the correct constitution to support self-organisation? Kauffman suggests that one of the most important attributes of a primordial soup to be capable of self-organisation is the need for a complex network of catalysts and the controlling mechanisms to stop the reactions from going supracritical. Can such a network be provided of primitive architectural concepts? What does it mean to have a catalyst in this domain? Conclusion Frazer shows some interesting work both in the areas of evolutionary design and self-organising systems. It is obvious from his work that he sympathizes with the opinions put forward by Kauffman that the order found in living organisms comes from both external evolutionary pressure and internal self-organisation. His final remarks underly this by paraphrasing the words of Kauffman, that life is always to found on the edge of chaos. By the "edge of chaos" Kauffman is referring to the area within the ordered regime of a system close to the "phase transition" to chaotic behaviour. Unfortunately, Frazer does not demonstrate that the systems he has presented have the necessary qualities to derive useful order at the edge of chaos. He does not demonstrate, as Kauffman does repeatedly, that there exists a "phase transition" between ordered and chaotic regimes of his systems. He also does not make any studies of the relationship of useful forms generated by his work to phase transition regions of his systems should they exist. If we are to find an organic architecture, in more than name alone, it is surely to reside close to the phase transition of the construction system of which is it built. Only there, if we are to believe Kauffman, are we to find useful order together with environmentally sensitive and thermodynamically open systems which can approach the utility of living organisms.
series	other
type	normal paper
last changed	2004/05/22 14:12

_id	695f
authors	Galle, P.
year	1995
title	Towards integrated, intelligent, and compliant computer modeling of buildings
source	Automation in Construction 4 (3) (1995) pp. 189-211
summary	This paper is a survey of current research into computer modeling of buildings. Just as much, however, it is a contribution to a debate on the future of this field of research (and as such expresses the author's opinions, rather than mere facts). It is suggested that more research should be conducted in a top-down "'problem-driven" (rather than in a bottom-up. "technology-driven") manner. As the goal of future research, ten desirable system properties are proposed and grouped together under three headings: integration. intelligence", and compliance. A critical survey of the current state-of-the-art of computer modeling of buildings is given, to assess how far we are from systems with such properties. On that background problems are discussed which are major obstacles to the proposed kind of systems (hence good starting points lot problem-driven research and some ways of approaching these problems are briefly evaluated.
keywords	Computer Modeling of Buildings; Product Modeling: Computer Aided Building Design; Critical Survey; Goal-Setting Debate; Concurrency Control: Integrity Constraint Management; Representation; Complexity of Representations
series	journal paper
more	http://www.elsevier.com/locate/autcon
last changed	2003/05/15 14:47

_id	ddssup9609
id	ddssup9609
authors	Hall, A.C.
year	1996
title	Assessing the Role of Computer Visualisation in Planning Control: a recent case study
source	Timmermans, Harry (Ed.), Third Design and Decision Support Systems in Architecture and Urban Planning - Part two: Urban Planning Proceedings (Spa, Belgium), August 18-21, 1996
summary	In papers to previous DDSS Conferences, and elsewhere, the author has developed an argument concerning the use of computer visualisation in the planning process. In essence, it proposes that: • visualisation can enable lay persons to play a more effective role and this can result in different and more effective decisions; • the level of realism employed should result from the basic requirements necessary to resolve the issue minimising the cost of production of the images. These points have been tested in repeated examples. The latest one concerns a new site that Anglia Polytechnic University has established in the centre of Chelmsford, UK. A computer model of the new campus showing both the existing and proposed buildings was commissioned from the author by the University for a visit by HM the Queen in June 1995. This model was subsequently adapted for use in the process of obtaining planning consent and the marketing of floorspace for the next building to be constructed. For this purpose, a higher level of realism was requested. The experience of achieving it confirmed the results of the previous research indicating the strong link between realism and cost. It also contributed new insights into the varying expectations of different professionals concerning the role of such a visualisation. The requirement of the architect for demonstrating all aspects of the design required a high level of realism than that required for planning and marketing purposes and was considerably more expensive. The low cost of use for planning purposes should be stressed but surprisingly, the lower level of realism implied may be easier for the lay person than the professional to accept.
series	DDSS
last changed	2003/08/07 16:36

_id	4169
authors	Iodo, Irina A.
year	1995
title	The Search for the Logical Algorithm of the Town-planning Process
source	CAD Space [Proceedings of the III International Conference Computer in Architectural Design] Bialystock 27-29 April 1995, pp. 275-282
summary	The creation of such models of material and spatial environment that can guarantee the most efficient passing of the virtual processes is considered to be one of the main goals for the town planning. But sometimes this goal is not achieved because of the far-fetched space organization accepted in the model, that does not always coincide with the real processes of vital activity. This report does not focus particularly on the damage which is caused by the realization of such defective models. But it is very important to find out the way for complete elimination of the reasons mentioned above. We should also take into account that means of cognition available at the moment are among the basic determiners, which define that "shear" of reality and also that comprehension level of objective laws governing this stage of social development. That is why our conception of the town-planning processes is in constant development and improvement: it gradually approximates to the truth, but, certainly, does not entirely perceive it.
series	plCAD
last changed	2000/01/24 10:08

_id	e3db
authors	Ismail, Ashraf Lotfy R.M.
year	1995
title	Singularity and Pluralism in Multimedia: A Key Theoretical Approach to the Multimodel
source	Multimedia and Architectural Disciplines [Proceedings of the 13th European Conference on Education in Computer Aided Architectural Design in Europe / ISBN 0-9523687-1-4] Palermo (Italy) 16-18 November 1995, pp. 331-340
doi	https://doi.org/10.52842/conf.ecaade.1995.331
summary	Contemporary multimedia research address the possibilities and consequences of integrating various techniques to produce single user based applications (singularity). There is a need for utilising current multimedia techniques; to explore the potential of multi-models (theoretically) to generate modelling information that could be shared simultaneously. The problems are confined to understanding and managing the issues that influence the so-called ´target and product models´. This paper introduces and elaborates on such problems. It provides a theoretical and another practical framework, the 3D-CAD Modelling Paradigm, based upon completed results of modelling. There is a suggested evidence that there might be advantages in standardising the process of modelling and knowledge representation. The paper stresses that the composition of a model should differ from another to reflect its unique characteristics (singularity). Though, it is essential that such models should conform and respond to the well defined and shared criteria (pluralism).
series	eCAADe
more	http://dpce.ing.unipa.it/Webshare/Wwwroot/ecaade95/Pag_40.htm
last changed	2022/06/07 07:50

_id	890b
authors	Jakimowicz, Adam
year	1995
title	Architecture not Aided – Architecture Transformed
source	CAD Space [Proceedings of the III International Conference Computer in Architectural Design] Bialystock 27-29 April 1995, pp. 193-207
summary	Permeating of new technologies (computer aided design) into architectural design causes essential changes in its structure. It is the process, set of mutually interrelated different social, political, cultural occurrences, which happen in the present time. Everything what is new, brings either fear or unreliable expectations. The reflection is needed to name what we will have to deal with in architecture. Architecture is not a stable sphere, and as other disciplines is subject to processes of change, which result from the specificity of the time. We need to be aware of the consequences these processes could cause. I located them in six general fields: 1.) Transformation of the tool traditional tools - set of singular, autonomous, mono-functional devices, which together make the environment; computer - one tool consisting of non-autonomous internal and external units, multifunctional; itself it is the environment, system; 2.) Transformation of the medium. As the medium is the message (M.McLuhan), so the essence of media is transmission. Traditional transmission in architectural design is direct (transmission is equivalent to recording, notation), computer based transmission is indirect (transmission is not equivalent to recording); 3.) Transformation of perception, imagination and thinking. Perception - in the process of design directly relates to media Indirect transmission - causes also rupture in direct relation between record and perception (mainly in modelling); simulated object is a stage in the process. Imagination, thinking - influenced with perception, with data transmitted from the medium - can be seen as inspiration; 4.) Transformation of cooperation and communication. It is to be done by elimination of some of intermediate stages in the design process and use of multimedial communication systems (Internet); 5.) Transformation of methodology. Same as in 4 with the possibility of simultaneous shifting in the hierarchy of design stages - almost full reversal of the process possible (regardless of individual methodology) - if needed of course; 6. Transformation of architecture itself. This concerns very deeply point 3 - and it rooms that natural consequences of the changes in perception, imagination and thinking should result in the new understanding of architecture - not as electronic methaphone, but as a sphere relevant (?!) to the vision of the world, which, as we see, is dramatically changing. The basic issue to accept is that this vision of the world should be interpreted individually. Personally.
series	plCAD
email
last changed	2000/01/24 10:08

_id	2a99
authors	Keul, A. and Martens, B.
year	1996
title	SIMULATION - HOW DOES IT SHAPE THE MESSAGE?
source	The Future of Endoscopy [Proceedings of the 2nd European Architectural Endoscopy Association Conference / ISBN 3-85437-114-4], pp. 47-54
summary	Architectural simulation techniques - CAD, video montage, endoscopy, full-scale or smaller models, stereoscopy, holography etc. - are common visualizations in planning. A subjective theory of planners says "experts are able to distinguish between 'pure design' in their heads and visualized design details and contexts like color, texture, material, brightness, eye level or perspective." If this is right, simulation details should be compensated mentally by trained people, but act as distractors to the lay mind. Environmental psychologists specializing in architectural psychology offer "user needs' assessments" and "post occupancy evaluations" to facilitate communication between users and experts. To compare the efficiency of building descriptions, building walkthroughs, regular plans, simulation, and direct, long-time exposition, evaluation has to be evaluated. Computer visualizations and virtual realities grow more important, but studies on the effects of simulation techniques upon experts and users are rare. As a contribution to the field of architectural simulation, an expert - user comparison of CAD versus endoscopy/model simulations of a Vienna city project was realized in 1995. The Department for Spatial Simulation at the Vienna University of Technology provided diaslides of the planned city development at Aspern showing a) CAD and b) endoscopy photos of small-scale polystyrol models. In an experimental design, they were presented uncommented as images of "PROJECT A" versus "PROJECT B" to student groups of architects and non-architects at Vienna and Salzburg (n= 95) and assessed by semantic differentials. Two contradictory hypotheses were tested: 1. The "selective framing hypothesis" (SFH) as the subjective theory of planners, postulating different judgement effects (measured by item means of the semantic differential) through selective attention of the planners versus material- and context-bound perception of the untrained users. 2. The "general framing hypothesis" (GFH) postulates typical framing and distraction effects of all simulation techniques affecting experts as well as non-experts. The experiment showed that -counter-intuitive to expert opinions- framing and distraction were prominent both for experts and lay people (= GFH). A position effect (assessment interaction of CAD and endoscopy) was present with experts and non-experts, too. With empirical evidence for "the medium is the message", a more cautious attitude has to be adopted towards simulation products as powerful framing (i.e. perception- and opinion-shaping) devices.
keywords	Architectural Endoscopy, Real Environments
series	EAEA
type	normal paper
email
more	http://info.tuwien.ac.at/eaea/
last changed	2005/09/09 10:43

_id	7e27
authors	Kostogarova, Eugenia P.
year	1995
title	Architectural Design and the Architect’s Dialogue with the Computer
source	CAD Space [Proceedings of the III International Conference Computer in Architectural Design] Bialystock 27-29 April 1995, pp. 299-302
summary	At the present time, when the problem of professional skill perfection is especially important, the designing methods perfection in order to provide "objectivization" of the form building process becomes also more and more important. The designing process analysis shows that one should not fully rely on the designer's intuition either while forming such complex organism as architectural form. But the simple thought that the appearance of some new technique results in the appearance of some new technology is not yet fully recognized. The questions of ,studying" the new technique, its "introduction" into designing practice etc. are being discussed. All this reminds one of the wide campaign once carried on to "introduce" scientific labour organization without a previous stage of this scientific organisation development which was sure to result in the discredit of the whole trend.
series	plCAD
last changed	2000/01/24 10:08

_id	640d
authors	Koszewski, Krysztof
year	1995
title	Communication of Ideas in Architecture Versus Computer Techniques
source	CAD Space [Proceedings of the III International Conference Computer in Architectural Design] Bialystock 27-29 April 1995, pp. 171-180
summary	Computer as a tool in architects' work is an obvious thing for near all of us. Recent two - three years have shown that probably the most revolutionary feature of computers is their immense possibility of usage in today's communication techniques, the continuous flow of information. This fact makes us to think about computer techniques as an useful tool not only in designing, but also in extensive presenting of ideas - like communication between architects and all the others involved in the designing and building process. Presenting ideas requires prior process of gathering data and storing it in computers' memory. Incredible progress in ways of organizing information leads also to the idea of developing a sketch of a standard of the amount and structure of information gathered to make it an universal set of parameters describing the design - a multi - functional database. The first part (presenting ideas) is more to be used in Poland by now. Architects should appreciate benefits of an impressive presentation and they already started to. The universal database for use by everyone, or rather a file of the project, which presentation is a part of, is rather a theory by now. But exploring it’s potential and a real need to create one - is essential.
series	plCAD
email
last changed	2003/05/17 10:01

_id	8c8d
authors	Li, Andrew I Kang and Tsou, Jin Yeu
year	1996
title	Using Virtual Models to Teach Traditional Chinese Wood Construction
source	CAADRIA ‘96 [Proceedings of The First Conference on Computer Aided Architectural Design Research in Asia / ISBN 9627-75-703-9] Hong Kong (Hong Kong) 25-27 April 1996, pp. 119-130
doi	https://doi.org/10.52842/conf.caadria.1996.119
summary	In this paper we discuss our experience in using virtual models to teach traditional Chinese wood construction. Although our approach is technically simple – we use a kit of model parts made with the Solid Modeler of AutoCAD, Release 12 (now Release 13), and customized commands in AutoLISP – we have had excellent results. This is because of the remarkable match between the modelling medium and the highly systematized nature of traditional Chinese wood construction. It is this crucial – and interesting – characteristic that we want students to understand and appreciate. In our first teaching experience, in the fall term, 1994-95, despite unexpected drawbacks, our approach succeeded. In fact, our students, all Hong Kong Chinese, were surprisingly enthusiastic and even took pride in the sophistication of this uniquely Chinese construction system. In 1995-96, we have used the same kit of parts in two courses: an introduction to Chinese architecture (spring term) and an advanced course in Song dynasty wood construction (fall term). We first discuss briefly the theoretical basis for our approach. We then describe the assignments, the kit of parts, and supporting materials used in our teaching experiences. Finally, we discuss our findings and consider directions for the future development and improvement of our approach.
series	CAADRIA
email
last changed	2022/06/07 07:52

_id	c7e9
authors	Maver, T.W.
year	2002
title	Predicting the Past, Remembering the Future
source	SIGraDi 2002 - [Proceedings of the 6th Iberoamerican Congress of Digital Graphics] Caracas (Venezuela) 27-29 november 2002, pp. 2-3
summary	Charlas Magistrales 2There never has been such an exciting moment in time in the extraordinary 30 year history of our subject area, as NOW,when the philosophical theoretical and practical issues of virtuality are taking centre stage.The PastThere have, of course, been other defining moments during these exciting 30 years:• the first algorithms for generating building layouts (circa 1965).• the first use of Computer graphics for building appraisal (circa 1966).• the first integrated package for building performance appraisal (circa 1972).• the first computer generated perspective drawings (circa 1973).• the first robust drafting systems (circa 1975).• the first dynamic energy models (circa 1982).• the first photorealistic colour imaging (circa 1986).• the first animations (circa 1988)• the first multimedia systems (circa 1995), and• the first convincing demonstrations of virtual reality (circa 1996).Whereas the CAAD community has been hugely inventive in the development of ICT applications to building design, it hasbeen woefully remiss in its attempts to evaluate the contribution of those developments to the quality of the built environmentor to the efficiency of the design process. In the absence of any real evidence, one can only conjecture regarding the realbenefits which fall, it is suggested, under the following headings:• Verisimilitude: The extraordinary quality of still and animated images of the formal qualities of the interiors and exteriorsof individual buildings and of whole neighborhoods must surely give great comfort to practitioners and their clients thatwhat is intended, formally, is what will be delivered, i.e. WYSIWYG - what you see is what you get.• Sustainability: The power of «first-principle» models of the dynamic energetic behaviour of buildings in response tochanging diurnal and seasonal conditions has the potential to save millions of dollars and dramatically to reduce thedamaging environmental pollution created by badly designed and managed buildings.• Productivity: CAD is now a multi-billion dollar business which offers design decision support systems which operate,effectively, across continents, time-zones, professions and companies.• Communication: Multi-media technology - cheap to deliver but high in value - is changing the way in which we canexplain and understand the past and, envisage and anticipate the future; virtual past and virtual future!MacromyopiaThe late John Lansdown offered the view, in his wonderfully prophetic way, that ...”the future will be just like the past, onlymore so...”So what can we expect the extraordinary trajectory of our subject area to be?To have any chance of being accurate we have to have an understanding of the phenomenon of macromyopia: thephenomenon exhibitted by society of greatly exaggerating the immediate short-term impact of new technologies (particularlythe information technologies) but, more importantly, seriously underestimating their sustained long-term impacts - socially,economically and intellectually . Examples of flawed predictions regarding the the future application of information technologiesinclude:• The British Government in 1880 declined to support the idea of a national telephonic system, backed by the argumentthat there were sufficient small boys in the countryside to run with messages.• Alexander Bell was modest enough to say that: «I am not boasting or exaggerating but I believe, one day, there will bea telephone in every American city».• Tom Watson, in 1943 said: «I think there is a world market for about 5 computers».• In 1977, Ken Olssop of Digital said: «There is no reason for any individuals to have a computer in their home».The FutureJust as the ascent of woman/man-kind can be attributed to her/his capacity to discover amplifiers of the modest humancapability, so we shall discover how best to exploit our most important amplifier - that of the intellect. The more we know themore we can figure; the more we can figure the more we understand; the more we understand the more we can appraise;the more we can appraise the more we can decide; the more we can decide the more we can act; the more we can act themore we can shape; and the more we can shape, the better the chance that we can leave for future generations a trulysustainable built environment which is fit-for-purpose, cost-beneficial, environmentally friendly and culturally significactCentral to this aspiration will be our understanding of the relationship between real and virtual worlds and how to moveeffortlessly between them. We need to be able to design, from within the virtual world, environments which may be real ormay remain virtual or, perhaps, be part real and part virtual.What is certain is that the next 30 years will be every bit as exciting and challenging as the first 30 years.
series	SIGRADI
email
last changed	2016/03/10 09:55

_id	c449
authors	Millard, Lesley
year	1995
title	A Strategic Approach to Climate Responsive Design Using Computer Based Learning
source	Multimedia and Architectural Disciplines [Proceedings of the 13th European Conference on Education in Computer Aided Architectural Design in Europe / ISBN 0-9523687-1-4] Palermo (Italy) 16-18 November 1995, pp. 177-182
doi	https://doi.org/10.52842/conf.ecaade.1995.177
summary	Existing computer software to support the teaching of environmental issues to architecture students is mainly based on energy calculation methods or packages of information split into subject areas. Neither approach seems to adequately support the early stages of the design process. The paper explores the construction of a model for a computer based learning system to teach the development of environmental strategies. Different strands of educational theory were used to develop teaching principles based around consideration of the subjective quality of knowledge influenced by ideas and theories from different sources, the importance of learning a "language" consisting of methods and theories of a subject and their application in context and the suggestion that "deep" learning requires conceptual changes. A suitable framework for the development of environmental strategies is suggested and its implementation using multi-media software as a method of integrating different types of information and learning materials is proposed. The paper concludes that the process of analysis is a key part of the system and should be made the focus of the structure and contents.
series	eCAADe
more	http://dpce.ing.unipa.it/Webshare/Wwwroot/ecaade95/Pag_23.htm
last changed	2022/06/07 07:58

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