最大限度地提高分布式双机流程车间的早期总工作量

A. Dolgui, M. Kovalyov, B. Lin
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引用次数: 1

摘要

最近在调度文献中研究了双机流程车间中最大限度地提高总提前工作的问题,其中n个作业被调度到一个共同的截止日期d。首先对加权情况提出了一种O(n2d2)时间动态规划算法,然后对未加权情况提出了另一种O(n2d2)时间动态规划算法,并将其转化为On4ε2 $$ O\left(\frac{n^4}{\varepsilon^2}\right) $$时间全多项式时间逼近格式(FPTAS)。通过建立新的问题性质,我们提出了一个O(nd2)时间动态规划算法和一个On3ε2 $$ O\left(\frac{n^3}{\varepsilon^2}\right) $$时间FPTAS。我们将问题推广到m个并行双机流车间的分布式设置,开发了一个O(nd3m)时间动态规划算法,一个On3m+1ε3m $$ O\left(\frac{n^{3m+1}}{\varepsilon^{3m}}\right) $$时间FPTAS,以及三个整数线性规划(ILP)公式。计算实验对所提出的ILP模型进行了评价。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maximizing total early work in a distributed two‐machine flow‐shop
The problem of maximizing total early work in a two‐machine flow‐shop, in which n jobs are to be scheduled subject to a common due date d, has been recently studied in the scheduling literature. An O(n2d4) time dynamic programming algorithm was presented first for the weighted case, and then for the unweighted case another O(n2d2) running time dynamic programming algorithm was proposed and converted into an On4ε2$$ O\left(\frac{n^4}{\varepsilon^2}\right) $$ time fully polynomial time approximation scheme (FPTAS). By establishing new problem properties, we present an O(nd2) time dynamic programming algorithm and an On3ε2$$ O\left(\frac{n^3}{\varepsilon^2}\right) $$ time FPTAS for the unweighted problem. We generalize the problem to a distributed setting of m parallel two‐machine flow‐shops, develop an O(nd3m) time dynamic programming algorithm, an On3m+1ε3m$$ O\left(\frac{n^{3m+1}}{\varepsilon^{3m}}\right) $$ time FPTAS, and three integer linear programming (ILP) formulations for it. Computational experiments are conducted to appraise the proposed ILP models.
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