1997 journal article

A methodology for the reduction of imprecision in the engineering process

EUROPEAN JOURNAL OF OPERATIONAL RESEARCH, 100(2), 277–292.

By: R. Giachetti n, R. Young n, A. Roggatz*, W. Eversheim* & G. Perrone*

author keywords: engineering design; design; decision making; constraint processing; fuzzy set theory; hierarchical modeling; concurrent engineering; precision convergence; coefficient of imprecision
TL;DR: A hierarchy of fuzzy constraint networks is presented along with a methodology for creating transitional links between different levels of the hierarchy, and a new measure introduced to quantify imprecision is measured. (via Semantic Scholar)
Source: Web Of Science
Added: August 6, 2018

Engineering design is characterized by a high level of imprecision, vague parameters, and ill-defined relationships. In design, imprecision reduction must occur to arrive at a final product specification. Few design systems exist for adequately representing design imprecision, and formally reducing it to precise values. Fuzzy set theory has considerable potential for addressing the imprecision in design. However, it lacks a formal methodology for system development and operation. One repercussion of this is that imprecision reduction is, at present, implemented in a relatively ad-hoc manner. The main contribution of this paper is to introduce a methodology called precision convergence for making the transition from imprecise goals and requirements to the precise specifications needed to manufacture the product. A hierarchy of fuzzy constraint networks is presented along with a methodology for creating transitional links between different levels of the hierarchy. The solution methodology is illustrated with an example within which an imprecision reduction of 98% is achieved in only three stages of the design process. The imprecision reduction is measured using the coefficient of imprecision, a new measure introduced to quantify imprecision.