队列时间和容量动态约束下混合流水车间调度的应用

2019 Joint International Symposium on e-Manufacturing & Design Collaboration(eMDC) & Semiconductor Manufacturing (ISSM) Pub Date : 2019-09-01 DOI:10.23919/eMDC/ISSM48219.2019.9052109

Motoharu Tanaka, Keita Nishizawa, Tomoki Ohno, Y. Ogawa, S. Arima

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引用次数: 2

摘要

本文介绍了包含时间限制的生产系统或具有单独交货期的产品(如订制产品)的混合流程车间调度方法。将Gupta的两步和n步混合流车间问题算法(2010)扩展为考虑排队时间的限制。这里用extendedgupta(2)和extendedgupta (n)表示。通过对目标生产系统的实际情况进行性能评价，两种扩展算法均能在不降低交货期满意率的情况下显著提高机器利用率，而顺序调度规则或原始Gupta算法的利用率或交货期满意率较低。Extended-Gupta (n)的总体优化能力优于Extended-Gupta (2)

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Applications of Hybrid flowshop schedulings under dynamic constraints of queue time and capacities

This paper introduced the hybrid flowshop scheduling (HFS) for a production system including Q-time restrictions or products with individual due-dates such as Make-to-Order products. Two of Gupta's algorithms for 2-step and for n-step hybrid flowshop problem (2010) were extended to consider with the restrictions of queueing time. Those are denoted by Extended-Gupta (2) and Extended-Gupta (n) here. As the result of performance evaluations using actual conditions of target production systems, Both of the Extended algorithms much improved the utilization of machines without deterioration of the due-date satisfaction rate, though ordinal dispatching rules or the original Gupta algorithm results lower utilization or lower due-date satisfaction rate. Extended-Gupta (n) performs better than Extended-Gupta (2) because of its total optimization ability

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来源期刊

2019 Joint International Symposium on e-Manufacturing & Design Collaboration(eMDC) & Semiconductor Manufacturing (ISSM)

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