The Robust Machine Availability Problem

ERN: Neural Networks & Related Topics (Topic) Pub Date : 2017-06-01 DOI:10.2139/ssrn.3052283
Guopeng Song, D. Kowalczyk, R. Leus
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Abstract

We define and solve the robust machine availability problem in a parallel machine environment, which aims to minimize the number of identical machines required while completing all the jobs before a given deadline. Our formulation preserves a user-defined robustness level regarding possible deviations in the job durations. For better computational performance, a branch-andprice procedure is proposed based on a set covering reformulation. We use zero-suppressed binary decision diagrams (ZDDs) for solving the pricing problem, which enable us to manage the difficulty entailed by the robustness considerations as well as by extra constraints imposed by branching decisions. Computational results are reported that show the effectiveness of a pricing solver with ZDDs compared with a MIP solver.
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鲁棒机器可用性问题
我们定义并解决了并行机器环境中的鲁棒机器可用性问题,该问题的目标是在给定的截止日期之前完成所有作业并最小化所需的相同机器数量。我们的公式保留了用户定义的关于作业持续时间中可能偏差的健壮性水平。为了提高计算性能,提出了一种基于集合覆盖重构的分支定价过程。我们使用零抑制二进制决策图(zdd)来解决定价问题,这使我们能够管理由鲁棒性考虑以及分支决策施加的额外约束所带来的困难。计算结果表明,与MIP求解器相比,zdd定价求解器是有效的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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ERN: Neural Networks & Related Topics (Topic)
ERN: Neural Networks & Related Topics (Topic)
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