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13 October 2000 New parametric concept for product customization
Yonghua Chen, Yizhong Wang
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Proceedings Volume 4192, Intelligent Systems in Design and Manufacturing III; (2000) https://doi.org/10.1117/12.403640
Event: Intelligent Systems and Smart Manufacturing, 2000, Boston, MA, United States
Abstract
Parametric design methods are often used for the customization of geometric forms. In this paper, parametric design is approached from a different perspective. A fuzzy logic approach is developed to describe the geometry of a parametric model. Instead of using numerical numbers to describe a set of dimensions, the proposed method accepts imprecise linguistic input, such as large, small or medium large. The simplicity of such description facilitates and attracts even the unprofessional designers, or even household customers when such a system is available on the Internet. To demonstrate the proposed concept and method, a fuzzy parametric design program of wine glass is implemented. Both fuzzy description and numerical input are available and the preferred input is selectable by the user. When fuzzy input is selected, fuzzy reasoning is used to deduce the unimportant parameters so that a solid model of the wine glass can be generated in SolidWorks. Physical prototypes of a few wine glass designs are fabricated using rapid prototyping technologies.
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Yonghua Chen and Yizhong Wang "New parametric concept for product customization", Proc. SPIE 4192, Intelligent Systems in Design and Manufacturing III, (13 October 2000); https://doi.org/10.1117/12.403640
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KEYWORDS
Fuzzy logic
Computer aided design
Glasses
Prototyping
SolidWorks
Mechanical engineering
Product engineering
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