Abstract
Flexible manufacturing systems (FMSs) offer opportunities for the manufacturers to improve their technology, competitiveness and profitability through a highly efficient and focused approach to manufacturing effectiveness. Justification, evaluation and selection of FMSs have now been receiving significant attention in the manufacturing environment. Evaluating alternative FMSs in the presence of multiple conflicting criteria and performance measures is often a difficult task for the decision maker. Preference ranking tools are special types of multicriteria decision-making methods in which the decision maker’s preferences on criteria are aggregated together to arrive at the final evaluation and selection of the alternatives. This paper deals with the application of six most potential preference ranking methods for selecting the best FMS for a given manufacturing organization. It is observed that although the performances of these six methods are almost similar, ORESTE (Organization, Rangement Et Synthese De Donnes Relationnelles) method slightly outperforms the others. These methods use some preference function or utility value or Besson ranking of criteria and alternatives, to indicate how much an alternative is preferred to the others. Most of these methods need quantification of criteria weights or different preference parameters, but ORESTE method, being an ordinal outranking approach, only requires ordinal data and attribute rankings according to their importance. Therefore, it is particularly applicable to those situations where the decision maker is unable to provide crisp evaluation data and attribute weights.
Highlights
In today’s global competitive environment, manufacturing organizations need to be more flexible, adaptive and responsive to changes to produce a variety of products in a short time at the minimum cost
Different multi-criteria decision-making (MCDM) methods have already been proposed by the past researchers to address the issue of flexible manufacturing systems (FMSs) evaluation and selection, it is still not clear which MCDM method is the best for a given FMS selection problem
This paper considers six potential preference ranking-based methods and compares their ranking performance while selecting an FMS for a specific industrial application
Summary
In today’s global competitive environment, manufacturing organizations need to be more flexible, adaptive and responsive to changes to produce a variety of products in a short time at the minimum cost. Technological advancements and continuous change in customers’ demands have made the manufacturing organizations realize the importance of manufacturing flexibility, which can only be achieved through the adoption and augmentation of flexible manufacturing systems (FMSs). A high level of flexibility can enable the manufacturing organizations to provide faster response to market changes, while maintaining increased product quality standards. A careful analysis regarding its feasibility and performance is needed, in which the impact of various long- and medium-term managerial, social and economic factors associated with FMS adoption can be assessed
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