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Maximizing a Class of Utility Functions Over the Vertices of a Polytope

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  • Alper Atamtürk

    (Department of Industrial Engineering and Operations Research, University of California, Berkeley, California 94720)

  • Andrés Gómez

    (Department of Industrial Engineering and Operations Research, University of California, Berkeley, California 94720)

Abstract

Given a polytope X , a monotone concave univariate function g , and two vectors c and d , we study the discrete optimization problem of finding a vertex of X that maximizes the utility function c ’ x + g ( d ’ x ). This problem has numerous applications in combinatorial optimization with a probabilistic objective, including estimation of project duration with stochastic times, in reliability models, in multinomial logit models and in robust optimization. We show that the problem is 𝒩𝒫 -hard for any strictly concave function g even for simple polytopes, such as the uniform matroid, assignment and path polytopes; and propose a 1/2-approximation algorithm for it. We discuss improvements for special cases where g is the square root, log utility, negative exponential utility and multinomial logit probability function. In particular, for the square root function, the approximation ratio is 4/5. We also propose a 1.25-approximation algorithm for a class of minimization problems in which the maximization of the utility function appears as a subproblem. Although the worst-case bounds are tight, computational experiments indicate that the suggested approach finds solutions within 1%–2% optimality gap for most of the instances, and can be considerably faster than the existing alternatives.

Suggested Citation

  • Alper Atamtürk & Andrés Gómez, 2017. "Maximizing a Class of Utility Functions Over the Vertices of a Polytope," Operations Research, INFORMS, vol. 65(2), pages 433-445, March-Apr.
    • Handle: RePEc:inm:oropre:v:65:y:2017:i:2:p:433-445
    DOI: 10.1287/opre.2016.1570
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    References listed on IDEAS

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