B. Faltings, K. Sun: "FAMING: Supporting Innovative Mechanism Shape Design," to appear, Computer-Aided Design, 1995  Home/Search   Document Details and Download   Summary   Related Articles   Check

....changing the place vocabulary (topology of cspace) Their task is to determine how much a given parameter can change without altering the current behavior, ours is to determine the constraints on all the parameters su#cient to obtain a desired behavior. More similar to our task is the work in [6]. They describe an interactive design system that modifies user selected parameters until there is a change in the place vocabulary, and hence a change in behavior. Then, just as we do, they use qualitative simulation to determine if the resulting behavior matches the desired behavior. They modify ....

Faltings, B. and Sun, K., 1995, "FAMING: Supporting Innovative Mechanism Shape Design," CAD.

....changing the place vocabulary (topology of cspace) Their task is to determine how much a given parameter can change without altering the current behavior, ours is to determine the constraints on all the parameters su#cient to obtain a desired behavior. More similar to our task is the work in [6]. They describe an interactive design system that modifies user selected parameters until there is a change in the place vocabulary, and hence a change in behavior. Then, just as we do, they use qualitative simulation to determine if the resulting behavior matches the desired behavior. They modify ....

Faltings, B. and Sun, K., 1995, "FAMING: Supporting Innovative Mechanism Shape Design," CAD.

....new knowledge that extends the range of designs the program is able to produce. Learning for customization One aspect of learning in design is that of customization: a general design system is adapted to the specific needs and preferences of a particular user. As an example, the FAMING system ([1], 2] is a program for innovative design of mechanism part shapes. The user can provide cases of earlier devices along with interpretations which indicate the desired functions. Using techniques of qualitative physics, FAMING constructs an explanation that links the structure provided in the case ....

B. Faltings, K. Sun: "FAMING: Supporting Innovative Mechanism Shape Design," to appear, Computer-Aided Design, 1995

....will make adaptation much more manageable. It is thus desirable to formulate abstractions with reference to particular cases and new design specifications. We have used case specific abstractions for adaptation in two projects of case based design: CADRE( Hua et al. 1996 ] and FAMING( Faltings and Sun, 1996 ] A brief and readable documentation of both systems together can be found in [ Faltings, 1996 ] In this extended abstract, I briefly discuss the use of abstractions for case adaptation in the two systems. 2 Abstractions for adaptating building designs We have investigated case reuse for ....

....to particular cases and new design specifications. We have used case specific abstractions for adaptation in two projects of case based design: CADRE( Hua et al. 1996 ] and FAMING( Faltings and Sun, 1996 ] A brief and readable documentation of both systems together can be found in [ Faltings, 1996 ] In this extended abstract, I briefly discuss the use of abstractions for case adaptation in the two systems. 2 Abstractions for adaptating building designs We have investigated case reuse for designing buildings. Even when only the walls are modelled, a typical residential building has ....

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Boi Faltings, Kun Sun: "FAMING: supporting innovative mechanism shape design", Computer-Aided Design 28 (1996), pp. 207-216

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Boi Faltings and Kun Sun, "FAMING: Supporting Innovative Mechanism Shape Design, " Computer-Aided Design, Vol. 28. No. 3, 1996, pp. 207-216.

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