Vincent Y. Blouin Brian J. Hunt Margaret M. Wiecek MCDM WITH RELATIVE IMPORTANCE OF CRITERIA: APPLICATION TO CONFIGURATION DESIGN OF VEHICLES * Abstract In this article, a preference model of relative importance of criteria is presented and applied to a vehicle configuration design problem formulated as a multi-objective program. The model is based on convex cones and extends the classical notion of Pareto optimality. Preferences quantifies as allowable tradeoffs are elicited from the decision maker and used for the construction of a new preference. In effect, the Pareto set is reduced which facilitates the process of choosing a final preferred solution. Configuration design of mechanical systems corresponds to finding the place- ment of a set of components such that performance criteria are optimized while satisfying design constraints. The presented configuration design problem involves designing a midsize truck for optimum vehicle dynamic behavior, survivability, and maintainability in the presence of decision maker’s preferences that are included a posteriori. A set of Pareto solutions is first generated with a multi-objective genetic algorithm, and the Pareto solutions are screened according to the preferences quantified as allowable tradeoffs. The model extracts preferred designs from the Pareto set pro- ducing a short list of “strong” or “privileged” designs, which is a useful feature when preferences are unknown. * This research builds upon the work of Dr Yi Miao whose effort is gratefully acknowledged. This research was supported in part by the Automotive Research Center (ARC), a U.S. Army TACOM Center of Excellence for Modeling and Simulation of Ground Vehicles at the University of Michigan and by the Na- tional Science Foundation, Grant number DMS-0425768. The views presented here do not necessarily reflect those of our sponsors whose support is gratefully acknowledged.