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	ec19
authors	Dhar, Vasant and Pople, Harry E.
year	1987
title	Rule-Based Versus Structure- Base Models for Explaining Generating Expert Behavior
source	Communications of the ACM. June, 1987. vol. 30: pp. 542-554 : ill. includes bibliography
summary	Flexible representations are required in order to understand and generate expert behavior. In this article the authors argue for a representation that contains partial model components that are synthesized into qualitative models containing entities and relationships relevant to the domain. The model components can be replaced and arranged in response to changes in the task environment. The authors have found this 'model constructor' to be useful in synthesizing models that explain and generate expert behavior, and have explored its ability to support decision making in the problem domain of business resource planning, where reasoning is based on models that evolve in response to changing external conditions or internal policies
keywords	AI, cognition, modeling, expert systems, knowledge base, representation
series	CADline
last changed	2003/06/02 13:58

_id	e7a8
authors	Emde, H.
year	1988
title	Geometrical Fundamentals for Design and Visualization of Spatial Objects
source	CAAD futures ‘87 [Conference Proceedings / ISBN 0-444-42916-6] Eindhoven (The Netherlands), 20-22 May 1987, pp. 171-178
summary	Every architectural object is a 3-dimensional entity of the human environment, haptically tangible and optically visible. During the architectural process of planning every object should be designed as a body and should be visualized in pictures. Thus the parts of construction get an order in space and the steps of construction get an order in time. The ideal planning object is a simulated anticipation of the real building object, which is to be performed later on. The possibility to relate the planning object immediately to the building object relies on the fact that they both have the same "geometry" This means: both can be described in the same geometric manner. Creating and visualizing spatial objects is based on geometrical fundamentals. Theoretical knowledge and practical control of these fundamentals is essential for the faultless construction and the realistic presentation of architectural objects. Therefore they have to be taught and learned thoroughly in the course of an architectural education. Geometrical design includes the forming of object- models (geometry of body boundaries), the structuring of object-hierarchies (geometry of body combinations) and the colouring of objects. Geometrical visualization includes controlling the processes of motion, of the bodies (when moving objects) and of the center of observation (when moving subjects) as well as the representation of 3-dimensional objects in 2- dimensional pictures and sequences of pictures. All these activities of architects are instances of geometrical information processing. They can be performed with the aid of computers. As for the computer this requires suitable hardware and software, as for the architect it requires suitable knowledge and capabilities to be able to talk about and to recall the perceivable objects and processes of the design with logic abstracts (language of geometry). In contrast to logical, numerical and textual informations the geometric informations concerning spatial objects are of much higher complexity. Usually these complexes of information are absorbed, processed and transmitted by the architect in a perceptive manner. The computer support in the field of geometry assumes that the processing of perceptions of the human consciousness can be converted by the computer as a framework of logical relations. Computer aided construction and representation require both suited devices for haptical and optical communication and suitable programs in particular.
series	CAAD Futures
last changed	1999/04/03 17:58

_id	0a9c
authors	Ozel, Filiz
year	1987
title	The Computer Model "BGRAF": A Cognitive Approach to Emergency Egress Simulation
source	University of Michigan
summary	During the past decade, fire safety researchers have come to the understanding that human factors in fires play an important role in controlling the spread of fire; and in decreasing the number of fire casualties in buildings. With the current developments in computer technology, computer modeling of human behavior in fires emerged as an effective method of research. Such computer modeling techniques offered the advantage of being able to experiment with hypothetical fires in buildings without Note endangering human life. Consequently, a study to develop a computer model that will simulate the emergency egress behavior of people in fires was undertaken. Changes in the information processing capacity of the individual as a result of time pressure and stress was considered as part of the emergency egress decision process. Theories from environmental psychology identified a range of cognitive factors, such as visual access in buildings, architectural differentiation, signage and plan configuration that affect way finding and route selection in buildings. These factors needed to be incorporated into emergency egress models. The model was based on the integrated building data base of the CAD system developed at the University of Michigan, Architecture and Planning Lab., which provided a comprehensive building definition, and allowed both graphic and tabular output. Two actual fire incidences were simulated as part of the validation study. These studies have stressed the importance of the cognitive aspects of the physical environment as a factor in emergency egress. A goal structure that represented the total decision process during fires was incorporated into the model. This structure allowed the inputting and testing of a variety of goal structures by using actions as model blocks. The objectives of the model developed in this study can best be summarized as to study and eventually to predict the route selection and exiting behavior in fires, with the purpose of using such information in making building design and code development decisions, and in suggesting action sequences that will best support the safety of the occupants of a building under different emergency conditions.
series	thesis:PhD
email
last changed	2003/02/12 22:37

_id	4910
authors	Rasdorf, William J. and Watson, Bruce R.
year	1987
title	A Knowledge-Based Approach to Engineering Information Retrieval and Management
source	London, UK: Chapman and Hall Ltd., 1987. pp. 267-295
summary	Building design, construction, operation, maintenance, and control are all processes that have achieved various levels of computer use. Although the degree of computerization varies significantly, one common aspect of the computing needs of each process is an abundance of data in the form of tables, standards, project definition information, catalogs, etc. In most cases this data is stored in files which are independently used for input to stand-alone single-process application programs, such as a structural analysis application. The utility of these independent files is therefore limited to a single application. As concepts of integration of engineering applications evolved, the use of databases and database management systems (DBMS) increased. A number of issues of significant concern emerged. First, there is a need to retrieve data from many independent, possibly widely distributed databases. Second, there is a need for a uniform means of doing so. Third, such databases routinely undergo dynamic change. Changes in a database schema commonly result from the evolution of a design, from changes in the design process itself, and from changes in other subsequent downstream processes. Such continuing changes must be reflected in the database schemas and they subsequently require that application programs be updated and that online users be educated on a continuing basis. This chapter describes a knowledge-based expert system that provides access to and integration of the many underlying databases needed to support the building design/construction process. The unique aspect of the expert system presented in this chapter is its capture of the knowledge that an experienced human user incorporates in his search for data in a database, i.e., it seeks to identify and use the generic knowledge needed to operate a DBMS to retrieve data. This knowledge is used by the interface to enable both the online users and the application programs to request data without knowing the data's location or precisely how to ask for it. Further, the interface makes use of mechanisms that allow the user to request data without knowing the exact name by which it is stored in the database. In doing so it formalizes the levels of complexity of that knowledge and points out the multidisciplinary applications of the research results
keywords	civil engineering, knowledge base, database, expert systems
series	CADline
last changed	2003/06/02 10:24

_id	831d
authors	Seebohm, Thomas
year	1992
title	Discoursing on Urban History Through Structured Typologies
doi	https://doi.org/10.52842/conf.acadia.1992.157
source	Mission - Method - Madness [ACADIA Conference Proceedings / ISBN 1-880250-01-2] 1992, pp. 157-175
summary	How can urban history be studied with the aid of three-dimensional computer modeling? One way is to model known cities at various times in history, using historical records as sources of data. While such studies greatly enhance the understanding of the form and structure of specific cities at specific points in time, it is questionable whether such studies actually provide a true understanding of history. It can be argued that they do not because such studies only show a record of one of many possible courses of action at various moments in time. To gain a true understanding of urban history one has to place oneself back in historical time to consider all of the possible courses of action which were open in the light of the then current situation of the city, to act upon a possible course of action and to view the consequences in the physical form of the city. Only such an understanding of urban history can transcend the memory of the actual and hence the behavior of the possible. Moreover, only such an understanding can overcome the limitations of historical relativism, which contends that historical fact is of value only in historical context, with the realization, due to Benedetto Croce and echoed by Rudolf Bultmann, that the horizon of "'deeper understanding" lies in "'the actuality of decision"' (Seebohm and van Pelt 1990). One cannot conduct such studies on real cities except, perhaps, as a point of departure at some specific point in time to provide an initial layout for a city knowing that future forms derived by the studies will diverge from that recorded in history. An entirely imaginary city is therefore chosen. Although the components of this city at the level of individual buildings are taken from known cities in history, this choice does not preclude alternative forms of the city. To some degree, building types are invariants and, as argued in the Appendix, so are the urban typologies into which they may be grouped. In this imaginary city students of urban history play the role of citizens or groups of citizens. As they defend their interests and make concessions, while interacting with each other in their respective roles, they determine the nature of the city as it evolves through the major periods of Western urban history in the form of threedimensional computer models. My colleague R.J. van Pelt and I presented this approach to the study of urban history previously at ACADIA (Seebohm and van Pelt 1990). Yet we did not pay sufficient attention to the manner in which such urban models should be structured and how the efforts of the participants should be coordinated. In the following sections I therefore review what the requirements are for three-dimensional modeling to support studies in urban history as outlined both from the viewpoint of file structure of the models and other viewpoints which have bearing on this structure. Three alternative software schemes of progressively increasing complexity are then discussed with regard to their ability to satisfy these requirements. This comparative study of software alternatives and their corresponding file structures justifies the present choice of structure in relation to the simpler and better known generic alternatives which do not have the necessary flexibility for structuring the urban model. Such flexibility means, of course, that in the first instance the modeling software is more timeconsuming to learn than a simple point and click package in accord with the now established axiom that ease of learning software tools is inversely related to the functional power of the tools. (Smith 1987).
series	ACADIA
email
last changed	2022/06/07 07:56

_id	0a09
authors	Akin, O., Dave, B. and Pithavadian, S.
year	1987
title	Problem Structuring in Architectural Design
source	February, 1987. [4], 15 p. : ill. includes bibliography
summary	The purpose of this research is to describe in operational terms the process of problem structuring while solving spatial problems in architectural design. The designer's behavior is described in terms of problem structuring, when problem parameters are established or transformed, and in terms of problem solving when these parameters are satisfied in a design solution. As opposed to problem solving, the structuring of problems is an under-studied but crucial aspect of complex tasks such as design. This work is based on observations derived from verbal protocol studies. To consider various levels of skill, the research subjects range from professional architects to novice designers. Subjects are given space planning problems which require them to develop solutions in accordance with individually established constraints and criteria, the majority of which are not explicit stated in the problem description. Based on the results of the protocol analysis, a framework is developed which explains how information processing characteristics, problem structure and different levels of expertise interact to influence the designer behavior
keywords	architecture, design process, problem solving, protocol analysis, problem definition
series	CADline
email
last changed	2003/05/17 10:09

_id	e820
authors	Armstrong, W.W., Green, M. and Lake, R.
year	1987
title	Near- Real-Time Control of Human Figure Models
source	IEEE Computer Graphics and Applications. June, 1987. vol. 7: pp. 52-60 : ill
summary	Includes bibliography. Animating human figures is one of the major problems in computer animation. A recent approach is the use of dynamic analysis to compute the movement of a human figure, given the forces and torques operating within and upon the body. One of the problems with this technique is computing the forces and torques required for particular motions: this has been called the control problem of dynamic analysis. To develop a better understanding of this problem, an interactive interface to a dynamics package has been produced. This interface, along with a collection of low-level motion processes, can be used to control the motion of a human figure model. This article describes both the user interface and the motion processes, along with experiences with this approach
keywords	computer graphics, animation, user interface
series	CADline
last changed	2003/06/02 14:41

_id	05c2
authors	Balachandran, M. B. and Gero, John S.
year	1987
title	Use of Knowledge in Selection and Control of Optimization Algorithms
source	engineering Optimization. 1987. vol. 12: pp. 163-173
summary	Computers have been widely used in optimization based problem solving processes to assist with the numerical computations. The widespread availability of symbolic computational tools and recent developments in artificial intelligence now make it feasible to expand the role of computers in this area. Various classes of knowledge used to improve the efficiency of the optimization processes are presented in this paper. A prototype system developed in the domain of multicriteria decision making is demonstrated. The system contains knowledge needed to select appropriate optimization algorithms, to control the solution process, and to select alternate algorithms if needed
keywords	multicriteria, algorithms, knowledge base, systems, problem solving, optimization
series	CADline
email
last changed	2003/06/02 13:58

_id	696c
authors	Beheshti, M. and Monroy, M.
year	1988
title	Requirements for Developing an Information System for Architecture
source	CAAD futures ‘87 [Conference Proceedings / ISBN 0-444-42916-6] Eindhoven (The Netherlands), 20-22 May 1987, pp. 149-170
summary	This paper discusses possibilities of developing new tools for architectural design. It argues that architects should meet the challenge of information technology and computer-based design techniques. One such attempt has been the first phase of the development of an architectural design information system (ADIS), also an architectural design decision support system. The system should benefit from the developments of the artificial intelligence to enable the architect to have access to information required to carry out design work. In other words: the system functions as a huge on-line electronic library of architecture, containing up-to-date architectural design information, literature, documents, etc. At the same time, the system offers necessary design aids such as computer programs for design process, drawing programs, evaluation programs, cost calculation programs, etc. The system also provides data communication between the architect and members of the design coalition team. This is found to be of vital importance in the architectural design process, because it can enable the architect to fit in changes, brought about in the project by different parties. Furthermore, they will be able, to oversee promptly the consequences of changes or decisions in a comprehensive manner. The system will offer advantages over the more commonly applied microcomputer based CAAD and IGDM (integrated graphics database management) systems, or even larger systems available to an architect. Computer programs as well as hardware change rapidly and become obsolete. Therefore, unrelenting investment pressure to up-date both software and hardware exists. The financial burden of this is heavy, in particular for smaller architectural practices (for instance an architect working for himself or herself and usually with few or no permanent staff). ADIS, as an on-line architectural design aid, is constantly up-dated by its own organisation. This task will be co-ordinated by the ADIS data- base administrator (DBA). The processing possibilities of the system are faster, therefore more complex processing tasks can be handled. Complicated large graphic data files, can be easily retrieved and manipulated by ADIS, a large system. In addition, the cost of an on-line system will be much less than any other system. The system is based on one model of the architectural design process, but will eventually contain a variety of design models, as it develops. The development of the system will be an evolutionary process, making use of its users' feed-back system. ADIS is seen as a step towards full automation of architectural design practices. Apart from being an architectural design support system, ADIS will assist the architect in his/her administrative and organisational activities.
series	CAAD Futures
last changed	2003/11/21 15:16

_id	ecaade2017_172
id	ecaade2017_172
authors	Brand?o, Filipe, Paio, Alexandra and Whitelaw, Christopher
year	2017
title	Mapping Mass Customization
doi	https://doi.org/10.52842/conf.ecaade.2017.2.417
source	Fioravanti, A, Cursi, S, Elahmar, S, Gargaro, S, Loffreda, G, Novembri, G, Trento, A (eds.), ShoCK! - Sharing Computational Knowledge! - Proceedings of the 35th eCAADe Conference - Volume 2, Sapienza University of Rome, Rome, Italy, 20-22 September 2017, pp. 417-424
summary	Mass customization (MC) and personal fabrication (PF) are current relevant topics in architecture offices practice and schools design research. Architects are adopting information based design and production techniques as a response to architectural century challenges. However, is not clear how various authors used and transformed the concept in practice, research and industry after three decades since the MC term was introduced by Davis (1987). Therefore, is essential to map the most relevant works in the field in relation to production and design control. The paper presents some of the results of the ongoing study through an evolving map that aims to visualize relationships, layering complexity and revealing difference.
keywords	Mass Customization; Personal Fabrication; Housing; Map
series	eCAADe
email
last changed	2022/06/07 07:54

_id	9583
authors	Brown, Stephen
year	1987
title	Computer-Aided Learning Support for Environmental Design Students Ergonomic Design
source	Proceedings of the Human Factors Society 31st Annual Meeting 1987 pp. 889-893
summary	Intelligent CAD systems could be a useful vehicle for disseminating Human Factors principles among non Human Factors designers. Limitations of current CAD systems are discussed and an experimental system is described. It is suggested that future CAD systems should be less than expert, should be responsive to different learning styles and should employ a variety of electronic media at the user interface.
series	other
last changed	2002/07/07 16:01

_id	0b9f
authors	Carini, Alessandra
year	1987
title	THE ITALIAN FULL-SCALE MODELS LABORATORY
source	Proceedings of the 1st European Full-Scale Workshop Conference / ISBN 87-88373-20-7 / Copenhagen (Denmark) 15-16 January 1987, pp. 27-30
summary	The Housing Research Center OIKOS has its offices in Bologna and is runned by a non-profit association of public and private Bodies. Among the members of the Association there are the University of Bologna, the Polytechnic of Turin, the Municipalities of Bologna, Turin, Venice and Brescia, the Emilia Romagna District, the National Builders Association, The Building and Housing Cooperatives, the Public Housing Association of Bologna, several building industries and so on. A few years ago OIKOS proposed a research to the National Housing Committee of the Ministry of Works. The object was to create in Italy a full-scale models laboratory, as well as a few European Countries had done before. We visited the Laboratories of Lausanne, Lund and Amsterdam. The National Housing Committee acknowledged the opportunity of this kind of Laboratory, which is an important tool to experiment and control in advance technical, architectural and use features of housing spaces.
keywords	Full-scale Modeling, Model Simulation, Real Environments
series	other
type	normal paper
more	http://info.tuwien.ac.at/efa
last changed	2004/05/04 15:08

_id	e9ef
authors	Casale, Malcolm S.
year	1987
title	Free-Form Solid Modeling with Trimmed Surface Patches
source	IEEE Computer Graphics and Applications January, 1987. vol. 7: pp. 33-43 : col. ill. includes bibliography.
summary	Solid modelers store a more complete representation than wireframe or surface modelers. This completeness permits the automation of such tasks as interference analysis, mass property calculation, and finite element mesh generation. But the denser information content and complex algorithms needed to perform these tasks complicate the support of free-form geometry, especially Boolean operations. Consequently, the high degree of geometric coverage traditionally found in surface modeling systems has not, for the most part, been equaled in modern solid modelers. This article explores some of the difficulties encountered in Boolean combinations of free-form solids and presents a geometric representation designed to circumvent them
keywords	solid modeling, curved surfaces, representation, geometric modeling, curves, boolean operations
series	CADline
last changed	2003/06/02 13:58

_id	0748
authors	Coyne, R.D., Rosenman, M.A. and Radford, A.D. (et.al.)
year	1987
title	Innovation and Creativity in Knowledge-based CAD
source	Amsterdam: North-Holland, 1987. pp. 435-465
summary	The authors examine the creativity of knowledge-based design systems from a narrow information processing perspective. As a property of the design process innovation and creativity can be identified by observing both the quality of the product, and also the characteristics of the process itself. The key theme running through the discussion is the acquisition of knowledge as the key to understanding creativity. This involves not only the ability of a system to acquire knowledge, but also its ability to control its own processes and change its own structure. In order to discuss this view a model of design systems is put forward in which a distinction between interpretative and syntactic subsystems for innovation and creativity is made
keywords	design process, knowledge base, systems, creativity, knowledge acquisition, representation
series	CADline
email
last changed	2003/05/17 10:13

_id	2389
authors	Fischler, Martin A. and Firschein, Oscar
year	1987
title	Intelligence : The Eye, The Brain, and the Computer
source	xiv, 331 p. [4] p. of plates : ill. ( some col.) Reading, Mass.: Addison-Wesley Pub Co., 1987. includes bibliography: p. 311-323 and index.
summary	This book presents a view of intelligence, both human and machine. It provides an understanding of the concept of intelligence, the nature of the cognitive and perceptual capabilities of people and computers and the representations and algorithms used to attain intelligent behavior
keywords	AI, learning, cognition, perception, representation, theory
series	CADline
last changed	2003/06/02 13:58

_id	2f5a
authors	Gero, John S. and Coyne, Richard D.
year	1987
title	Knowledge-based Planning as a Design Paradigm
source	Amsterdam: North-Holland, 1987. pp. 289-323 : tables. includes bibliography
summary	The application of sequential planning to the design process is discussed, considering design as a search through a space of states. The procedures which transform states utilize a kind of design knowledge. Planning is considered as a method of controlling the design process. Various paradigms of planning are discussed along with their application to design. The authors discuss forward deduction and backtracking, backward deduction hierarchical planning and constructive approaches to planning. These lead to the view that control in design is a multi-level process. The paradigms are illustrated with examples implemented in PROLOG. With this it is shown that knowledge-based planning is a good design paradigm
keywords	control, design process, planning, PROLOG, knowledge base
series	CADline
email
last changed	2003/05/17 10:17

_id	e3a4
authors	Girard, Michael
year	1987
title	Interactive Design of 3D Computer-Animated Legged Animal Motion
source	IEEE Computer Graphics and Applications. June, 1987. vol. 7: pp. 39-51 : ill. includes bibliography
summary	A visually interactive approach to the design of 3D computer- animated legged animal motion in the context of the PODA computer animation system is presented. The design process entails the interactive specification of parameters that drive a computational model for animal movement. The animator incrementally modifies a framework for establishing desired limb and body motion as well as the constraints imposed by physical dynamics (Newtonian mechanical properties) and temporal restrictions. PODA uses the desired motion and constraints specified by the animator to produce motion through an idealized model of the animal's adaptive dynamic control strategies
keywords	computer graphics, animation
series	CADline
last changed	1999/02/12 15:08

_id	e26f
authors	Kalay, Y. (ed.)
year	1987
title	Computability of Design
source	New York: Wiley & Sons
summary	Computer-aided design (CAD) has promised to transform the art and science of architectural design. Yet, despite some significant achievements in the past 3 decades, it has so far failed to do so. This stimulating volume, derived from a symposium held at SUNY, Buffalo in December 1986, explores the reasons why design is so difficult to support by computational means, and what can be done to alleviate this difficulty. Written by an interdisciplinary panel of experts, it presents a varied and comprehensive view of the ways creative design processes can be modelled. The contributors do not all reach the same conclusions, which makes this book lively reading. Topics are arranged into four parts: constructing models of the design process, the computational representation of design knowledge (including spatial information and implicit design intent), methods for computing the design process as a whole (including mathematical programming, expert systems, and shape grammars), and the integration of CAD with traditional design practices.
series	other
last changed	2003/04/23 15:14

_id	0b76
authors	Kalay, Yehuda E. (editor)
year	1987
title	Computability of Design
source	xvii, 363 p. : ill New York: Wiley & Sons, 1987. includes bibliographies and index --- (Principle of Computer-aided Design)
summary	Computer-aided design has promised to transform the art and science of architectural design. Yet despite some significant achievements, it has so far failed to do so. The book explores reasons why design is so difficult to support by computational means and what can be done to alleviate this difficulty. Written by an interdisciplinary panel of experts the book presents a varied and comprehensive view of the ways creative design processes can be modeled mathematically
keywords	CAD, design process, architecture, design methods, knowledge, representation, practice, evaluation, analysis
series	CADline
email
last changed	2003/06/02 13:58

_id	671c
authors	Kalay, Yehuda E., Swerdloff, Lucien M. and Harfmann, Anton C.
year	1987
title	A Knowledge-Based Approach to Dynamic Computer-Aided Design Task Allocation
source	Expert Systems in Computer-Aided Design: Proceeding of the IFIP WG 5.2 Working Conference on Expert system in Computer-Aided Design --- edited by Gero, John S Sydney: North-Holland, 1987. pp. 203-224 : ill. includes bibliography.
summary	A model of the design process control that supports dynamic allocation of tasks between a designer and a computer is presented. The model is discussed theoretically, and is demonstrated through a Prolog implementation for the participatory design of single family houses. Its utility and universal applicability are established, as well as its relationship to other computational approaches to design automation
keywords	expert systems, design process, knowledge base, architecture, control, housing, applications
series	CADline
email
last changed	2003/06/02 13:58

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