Efficient algorithm for globally computing the min-max linear fractional programming problem

RAIRO Oper. Res. Pub Date : 2023-06-01 DOI:10.1051/ro/2023075
Hongwei Jiao, Wenjie Wang, Li Ge, P. Shen, Y. Shang
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Abstract

In this paper, we consider the min-max linear fractional programming problem (MLFP) which is NP-hard. We first introduce some auxiliary variables to derive an equivalent problem of the problem (MLFP). An outer space branch-and-bound algorithm is then designed by integrating some basic operations such as the linear relaxation method and branching rule. The global convergence of the proposed algorithm is proved by means of the subsequent solutions of a series of linear relaxation programming problems, and the computational complexity of the proposed algorithm is estimated based on the branching rule. Finally, numerical experimental results demonstrate the proposed algorithm can be used to efficiently compute the globally optimal solutions of test examples.
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全局求解最小最大线性分式规划问题的高效算法
本文研究了一类np困难的最小-最大线性分式规划问题。我们首先引入一些辅助变量,推导出问题的等价问题(MLFP)。结合线性松弛法和分支规则等基本运算,设计了一种外空间分支定界算法。利用一系列线性松弛规划问题的后续解证明了算法的全局收敛性,并基于分支规则估计了算法的计算复杂度。最后,数值实验结果表明,该算法能够有效地求解算例的全局最优解。
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RAIRO Oper. Res.
RAIRO Oper. Res.
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