4.3 Article

A complexity analysis and algorithms for two-machine shop scheduling problems under linear constraints

Journal

JOURNAL OF SCHEDULING
Volume -, Issue -, Pages -

Publisher

SPRINGER
DOI: 10.1007/s10951-021-00677-8

Keywords

Flow shop scheduling; Job shop scheduling; Open shop scheduling; Computational complexity; Linear programming

Funding

  1. NSFC [11801589, 11771245, 11371216]

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This study focuses on flow shop, job shop, and open shop scheduling problems under linear constraints, proposing polynomial-time optimal or approximation algorithms. It is shown that problems with processing times satisfying linear constraints are generally NP-hard in the strong sense, leading to the design of algorithms for various settings. A 2-approximation algorithm and polynomial-time approximation schemes are introduced for the general case.
We study several two-machine shop scheduling problems, namely flow shop, job shop and open shop scheduling problems under linear constraints. In these problems, the processing times of two stages of jobs are also decision variables and satisfy a system of linear constraints. The goal of each problem is to determine the processing time of each job, and to schedule the jobs to the shop machine such that the makespan, i.e., the completion time of all jobs, is minimized. These problems can find application in various areas, such as industrial production, advertising and automotive maintenance. We study the computational complexity and propose polynomial-time optimal or approximation algorithms for them. In particular, we show that although a two-machine flow shop scheduling problem and a two-machine job shop scheduling problem without recirculation can be solved in polynomial time, the problems where processing times satisfy linear constraints are generally NP-hard in the strong sense. Then, we design algorithms for various settings of these problems. We design polynomial-time algorithms for them when there are a fixed number of constraints. For the general case, we first propose a simple 2-approximation algorithm, and then design a polynomial-time approximation schemes. In contrast to the previous two problems, we show that the two-machine open shop scheduling problem under linear constraints can be solved in polynomial time.

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