Due-date determination with resequencing

Chung-Lun LI; T.C.E. CHENG

doi:10.1023/A:1007550328128

Due-date determination with resequencing

Chung-Lun LI, T.C.E. CHENG

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

13 Citations (Scopus)

Abstract

Traditional scheduling and due-date determination models assume that the production system is operating in a static and deterministic environment and that the system carries no workload at each scheduling epoch. In this research we consider a due-date determination model where the scheduler wishes to update the existing schedule when some new jobs have arrived into the system. In this model, jobs are categorized as either `old' or `new' jobs, where the due-dates of the old jobs are treated as given parameters and those of the new jobs are decision variables. The objective is to minimize the maximum weighted tardiness penalty and the due-date assignment cost. The computational complexity of this model is analyzed, and an efficient algorithm is developed for an important special case. © 1999 "IIE".

Original language	English
Pages (from-to)	183-188
Journal	IIE Transactions
Volume	31
Issue number	2
DOIs	https://doi.org/10.1023/A:1007550328128
Publication status	Published - 1999
Externally published	Yes

Bibliographical note

This has also been published in: LI, C.-L., & CHENG, T. C. E. (1999). Due-date determination with resequencing. IIE Transactions, 31(2), 183-188. https://doi.org/10.1080/07408179908969817

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AU - CHENG, T.C.E.

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N2 - Traditional scheduling and due-date determination models assume that the production system is operating in a static and deterministic environment and that the system carries no workload at each scheduling epoch. In this research we consider a due-date determination model where the scheduler wishes to update the existing schedule when some new jobs have arrived into the system. In this model, jobs are categorized as either `old' or `new' jobs, where the due-dates of the old jobs are treated as given parameters and those of the new jobs are decision variables. The objective is to minimize the maximum weighted tardiness penalty and the due-date assignment cost. The computational complexity of this model is analyzed, and an efficient algorithm is developed for an important special case. © 1999 "IIE".

AB - Traditional scheduling and due-date determination models assume that the production system is operating in a static and deterministic environment and that the system carries no workload at each scheduling epoch. In this research we consider a due-date determination model where the scheduler wishes to update the existing schedule when some new jobs have arrived into the system. In this model, jobs are categorized as either `old' or `new' jobs, where the due-dates of the old jobs are treated as given parameters and those of the new jobs are decision variables. The objective is to minimize the maximum weighted tardiness penalty and the due-date assignment cost. The computational complexity of this model is analyzed, and an efficient algorithm is developed for an important special case. © 1999 "IIE".

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DO - 10.1023/A:1007550328128

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JO - IIE Transactions

JF - IIE Transactions

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Due-date determination with resequencing

Abstract

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