| 摘 要: | ![]()
We consider the problem of scheduling n jobs in a pallet-constrained flow shop so as to minimize the makespan.In such a flow shop environment,each job needs a pallet the entire time,from the start of its first operation until the completion of the last operation,and the number of pallets in the shop at any given time is limited by a positive integer,K≤n.Generally speaking,the optimal schedules may be passing schedules.In this paper,we present a combinatorial property which shows that for two machines,K(K≥3)pallets,there exists a no-passing schedule which is an optimal schedule for n≤2K-1 and 2K-1 is tight.
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