A fuzzy AHP approach to evaluating machine tool alternatives
Selecting process of a machine tool has been very important issue for companies for years because the improper selection of a machine tool might cause of many problems affecting negatively on productivity precision flexibility and company's responsive manufacturing capabilities. On the other hand selecting the best machine tool from its increasing number of existing alternatives in market are multiple-criteria decision making (MCDM) problem in the presence of many quantitative and qualitative attributes. Therefore in this paper an analytic hierarchy process (AHP) is used for machine tool selection problem due to the fact that it has been widely used in evaluating various kinds of MCDM problems in both academic researches and practices. However due to the vagueness and uncertainty on judgments of the decision-maker(s) the crisp pair wise comparison in the conventional AHP seems to insufficient and imprecise to capture the right judgments of decision-maker(s). That is whyfuzzy number logic is introduced in the pair wise comparison of AHP to make up for this deficiency in the conventional AHP. Shortly in this study an intelligent approach is proposed where both techniquesfuzzy logic and AHP are come together referred to as fuzzy AHP. First the fuzzy AHP technique is used to weight the alternatives under multiple attributessecond Benefit/Cost (B/C) ratio analysis is carried out by using both the fuzzy AHP score and procurement cost of each alternative. The alternative with highest B/C ratio is found out and called as the ultimate machine tool among others. In addition a case study is also presented to make this approach more understandable for a decision-maker(s).
SourceJournal Of Intelligent Manufacturing
KeywordsMachine tool selection
Multiple-criteria decision making
Analytic hierarchy process (AHP)
Benefit/Cost (B/C) ratio analysis