A systematic decision making approach for product conceptual design based on fuzzy morphological matrix
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摘要
Conceptual design plays an important role in development of new products and redesign of existing products. Morphological matrix is a popular tool for conceptual design. Although the morphological-matrix based conceptual design approaches are effective for generation of conceptual schemes, quantitative evaluation to each of the function solution principle is seldom considered, thus leading to the difficulty to identify the optimal conceptual design by combining these function solution principles. In addition, the uncertainties due to the subjective evaluations from engineers and customers in early design stage are not considered in these morphological-matrix based conceptual design approaches. To solve these problems, a systematic decision making approach is developed in this research for product conceptual design based on fuzzy morphological matrix to quantitatively evaluate function solution principles using knowledge and preferences of engineers and customers with subjective uncertainties. In this research, the morphological matrix is quantified by associating the properties of function solution principles with the information of customer preferences and product failures. Customer preferences for different function solution principles are obtained from multiple customers using fuzzy pairwise comparison (FPC). The fuzzy customer preference degree of each solution principle is then calculated by fuzzy logarithmic least square method (FLLSM). In addition, the product failure data are used to improve product reliability through fuzzy failure mode effects analysis (FMEA). Unlike the traditional FMEA, the causality relationships among failure modes of solution principles are analyzed to use failure information more effectively through constructing a directed failure causality relationship diagram (DFCRD). A fuzzy multi-objective optimization model is also developed to solve the conceptual design problem. The effectiveness of this new approach is demonstrated using a real-world application for conceptual design of a horizontal directional drilling machine (HDDM).
论文关键词:Conceptual design,Morphological matrix,Customer preference,Fuzzy pairwise comparison,Directed failure causality relationship diagram,Fuzzy multi-objective optimization,List of abbreviations: CR,Customer requirement,CS,Conceptual scheme,DFCRD,Directed failure causality relationship diagram,DSM,Design structure matrix,FC,Function component,FCM,Failure causality matrix,FCR,Failure causality relationship,FLLSM,Fuzzy logarithmic least squares method,FMEA,Failure mode and effects analysis,FPC,Fuzzy pairwise comparison,FWLSM,Fuzzy weighted least squares model,HDDM,horizontal directional drilling machine,QFD,Quality function deployment,RPN,Risk priority number,SP,Solution principle,TFN,Triangular fuzzy numbers
论文评审过程:Received 9 May 2016, Revised 30 March 2017, Accepted 31 March 2017, Available online 2 April 2017, Version of Record 7 April 2017.
论文官网地址:https://doi.org/10.1016/j.eswa.2017.03.074