A global scheduling approach for cycle time control in complex manufacturing systems

Barhebwa-Mushamuka, Félicien; Dauzère‐Pérès, Stéphane; Yugma, Claude

doi:10.1080/00207543.2021.2010828

Cited by 4 publications

(2 citation statements)

References 59 publications

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“…Kopanos et al studied a relevant problem by developing a hybrid-optimization scheduling tool, which includes iterative MILP or heuristic procedures for sub-problems identified as bottleneck toolsets [200]. Barhebwa-mushamuka et al developed a global scheduling approach that aims at meeting product cycle time targets, based on which production quantities for each product at each operation could be derived at each scheduling horizon [201].…”

Section: Stochastic and Dynamic Schedulingmentioning

confidence: 99%

“…average and standard deviation of cycle time, WIP, throughput release control [197] non-specific r j , s lk , etc. throughput, mean cycle time, flow time, movement closed-loop adaptive scheduling [198] wafer fabrication r j , s lk , p-batch, recrc, incompatible, transportation ∑ w j T j RH, SBH, VNS [199] wafer fabrication r j , prec, recrc C max RH, SBH, MILP, ACO [200] wafer fabrication p-batch, recrc ∑ w j C j hybrid-optimization scheduling [201] wafer…”

Section: References Operations Main Characteristicsmentioning

confidence: 99%

See 1 more Smart Citation

Problems and Solution Methods of Machine Scheduling in Semiconductor Manufacturing Operations: A Survey

Fang,

Cheang,

Lim

2023

Sustainability

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Machine scheduling problems associated with semiconductor manufacturing operations (SMOs) are one of the major research topics in the scheduling literature. Lots of papers have dealt with different variants of SMOs’ scheduling problems, which are generally difficult to tackle theoretically and computationally. In this paper, the single machine, parallel machines, flow shops, and job shops scheduling problems from SMOs have been reviewed, based on different processing constraints, e.g., batch processing, auxiliary resources, incompatible job families, and reentrant flow, etc., with the cycle time, flow time, and throughput-related performance measures. Given the vast and diverse nature of the current literature, it is urgently needed to make a systematic survey in order to identify the important research problems, research trends, and the progress of the related solution methods, as well as clarify future research perspectives. We hope the findings and observations could provide some insights to the researchers and practitioners in this domain.

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Section: Stochastic and Dynamic Schedulingmentioning

confidence: 99%