The inverse k-max combinatorial optimization problem

Q3 Decision Sciences Yugoslav Journal of Operations Research Pub Date : 2022-01-01 DOI:10.2298/yjor220516037n
T. Nhan, K. Nguyen, Nguyen Hung, N. Toan
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引用次数: 0

Abstract

Classical combinatorial optimization concerns finding a feasible subset of a ground set in order to optimize an objective function. We address in this article the inverse optimization problem with the k-max function. In other words, we attempt to perturb the weights of elements in the ground set at minimum total cost to make a predetermined subset optimal in the fashion of the k-max objective with respect to the perturbed weights. We first show that the problem is in general NP-hard. Regarding the case of independent feasible subsets, a combinatorial O(n2 log n) time algorithm is developed, where n is the number of elements in E. Special cases with improved complexity are also discussed.
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逆k-max组合优化问题
经典的组合优化是为了优化目标函数而寻找一个可行的基集子集。本文讨论了k-max函数的逆优化问题。换句话说,我们试图以最小的总成本扰动地面集合中元素的权重,以相对于扰动权重的k-max目标的方式使预定子集最优。我们首先证明这个问题一般是np困难的。针对独立可行子集的情况,提出了一种时间为O(n2 log n)的组合算法,其中n为e中的元素个数,并讨论了提高复杂度的特殊情况。
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来源期刊
Yugoslav Journal of Operations Research
Yugoslav Journal of Operations Research Decision Sciences-Management Science and Operations Research
CiteScore
2.50
自引率
0.00%
发文量
14
审稿时长
24 weeks
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