Abstract
We consider two-machine flow shop scheduling problems with storage to minimize the makespan. Under a storage constraint, each job has its own size, and the total size of the job(s) being processed on the machine(s) and the job(s) waiting for the second operation cannot exceed the given capacity. It is known that the computational complexity is strongly NP-hard and in general an optimal schedule does not exist in the set of schedules with the same job sequences on two machines, referred to as a permutation set. Thus, we consider two cases such that an optimal schedule exists in the permutation set. These two cases have the special structure of processing times. In the first case, the processing times of two machines for each job are identical, while in the second case, machine 2 dominates machine 1, that is, the smallest processing time of the second group of operations is larger than or equal to the largest one of the first group of operations. We show that the first case is strongly NP-hard and admits a polynomial-time approximation scheme (PTAS), while the second case is solved in polynomial time.
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Acknowledgements
The first author’s work was supported by a Grant from Incheon National University in 2017 (2017-0484).
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Min, Y., Choi, BC. & Park, MJ. Two-machine flow shops with an optimal permutation schedule under a storage constraint. J Sched 23, 327–336 (2020). https://doi.org/10.1007/s10951-019-00608-8
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DOI: https://doi.org/10.1007/s10951-019-00608-8