Extended General Design Theory (2nd Report)

Abstract This paper proposes a new design process model that unifies theoretical results of General Design Theory (GDT) and empirical findings obtained from design experiments. It first reviews the design process models that were developed within theoretical work on GDT. Then, we describe experimental work on design based on protocol analysis, which resulted in a cognitive design process model from which further a computable design process model was derived. While these experimental results are supposed to support the theoretical conclusions obtained from GDT, we could also find out incompatibilities. We then propose a new design process model, called the refinement design process model, that can unify both theoretical results of GDT and experimental finding obtained from design experiments. The refinement model has better agreements with experimental findings and suggests various issues as a guiding principle to develop a future, advanced CAD system that helps a designer to focus on functional information. We propose and illustrate the concepts of such an advanced CAD system equipped with intensive design knowledge, called a computational framework for knowledge intensive engineering.

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Introduction to General Design Theory

Journal of the Japan Society of Precision Engineering ◽

10.2493/jjspe1933.45.906 ◽

1979 ◽

Vol 45 (536) ◽

pp. 906-912 ◽

Cited By ~ 10

Author(s):

Hiroyuki YOSHIKAWA

Keyword(s):

Design Theory ◽

General Design

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Teaching Creative Design by Integrating General Design Theory and the Pahl and Beitz Methodology

Volume 6: 15th Design for Manufacturing and the Lifecycle Conference; 7th Symposium on International Design and Design Education ◽

10.1115/detc2010-28444 ◽

2010 ◽

Cited By ~ 2

Author(s):

Tetsuo Tomiyama ◽

Paul Breedveld ◽

Herbert Birkhofer

Keyword(s):

The Netherlands ◽

Medical Devices ◽

Design Education ◽

Design Theory ◽

Design Methodology ◽

Theoretical Explanation ◽

Creative Design ◽

General Design ◽

Improve Design ◽

Design Methodologies

The design methodology developed by Pahl and Beitz (P&B) is one of the most widely taught design methodologies. However, this methodology is not easy to correctly exercise for non-experienced designers such as students. At TU Darmstadt in Germany, a method was developed to make students to realize the background philosophy of P&B, to reduce misunderstanding and misuse of the method, and to help them to arrive at creative design. At TU Delft in the Netherlands, an experienced designer who works on designing mechanical medical devices developed a method to generate creative designs. Although independently developed, these two methods share some commonality and have a potential to improve design education towards creative design. This paper is an attempt to give a theoretical explanation why these two methods facilitate creative design based on General Design Theory.

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A general design formula of multi-section power divider based on singly terminated filter design theory

2001 IEEE MTT-S International Microwave Sympsoium Digest (Cat. No.01CH37157) ◽

10.1109/mwsym.2001.967131 ◽

2002 ◽

Cited By ~ 3

Author(s):

Sung-Won Lee ◽

Chul-Soo Kim ◽

Kwan Sun Choi ◽

Jun-Seok Park ◽

Dal Ahn

Keyword(s):

Design Theory ◽

Filter Design ◽

Power Divider ◽

General Design ◽

Design Formula

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Research on Design of Equipment Support Training Development under Informationization

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.718-720.2503 ◽

2013 ◽

Vol 718-720 ◽

pp. 2503-2507

Author(s):

Jin Hua Wen ◽

Wen Yu Zhang ◽

Yan Chen

Keyword(s):

Design Theory ◽

Training System ◽

Systematic Analysis ◽

General Design ◽

Training Requirements ◽

Training Development ◽

Effective Cost ◽

Cost Efficient ◽

Increasing Demand ◽

Theory Framework

Under informationization, with the development of the technology, equipment becomes more and more complex, which has placed an increasing demand on the innovation of the design theory and methods to equipment support training. However, the methodology to develop the equipment support training is still in the traditional way. There is a lack of the general design on the training system and the systematic analysis of the training requirements. Based on the ISD process, using the IDEF0 modeling technique, a design theory framework for the design of equipment support training is proposed. The theory framework provides a basis for the further study on the establishment of the effective, cost efficient equipment support training system.

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From general design theory to knowledge-intensive engineering

Artificial intelligence for engineering design analysis and manufacturing ◽

10.1017/s0890060400000998 ◽

1994 ◽

Vol 8 (4) ◽

pp. 319-333 ◽

Cited By ~ 38

Author(s):

Tetsuo Tomiyama

Keyword(s):

Computer Aided Design ◽

Design Theory ◽

Process Model ◽

Model Management ◽

Design Knowledge ◽

Multiple Model ◽

General Design ◽

Design Process Model ◽

Knowledge Intensive ◽

Experimental Findings

AbstractContributions of general design theory (GDT) proposed by Yoshikawa for the development of advanced CAD (computer-aided design) and for innovative design from the research results of a group at the University of Tokyo are illustrated. First, the GDT that formalizes design knowledge based on axiomatic set theory is reviewed. Second, this theoretical result is tested against experimental work on design processes. Although in principle the theoretical results agree with the experimental findings, some problems can be pointed out. From these problems a new design process model, called the refinement model, is established, which has better agreement with the experimental findings. This model implies three guiding principles in developing a future CAD system. One is that future CAD requires a mechanism for physics-centered modeling and multiple model management. Second, a mechanism for function modeling is also required, and the FBS (function-behavior-state) modeling is proposed. Third, intention modeling is also proposed for recording decision-making processes in design. These advanced modeling techniques enable creative, innovative designs. As an example, the design of self-maintenance machines is illustrated. This design example utilizes design knowledge intensively on a knowledge-intensive CAD. This is a new way of engineering and can be called knowledge-intensive engineering. The design of self-maintenance machines is, therefore, an example of knowledge-intensive design of knowledge-intensive products, which demonstrates the power of the design methodology derived from the GDT.

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