The performance of combinatorial priority rules in a manufacturing flow shop

Felix T.S. Chan; Hing Kai Chan

doi:10.1504/EJIE.2012.048855

The performance of combinatorial priority rules in a manufacturing flow shop

Felix T.S. Chan, Hing Kai Chan

Research output: Journal Publication › Article › peer-review

3 Citations (Scopus)

Abstract

Some of the previous research indicates that no single priority rule could perform excellently on those common performance measures. This study focuses on evaluating the impact of deploying combinations of four single priority rules on a three-stage manufacturing flow shop, i.e., different rules are employed at different workstation. Full factorial combinations of four commonly used priority rules, leading to 64 rule combinations, are analysed. Besides, variations in buffer capacity and due date allowance are taken into account. Both terminating and non-terminating systems are investigated in this study. For terminating system, variations in production volume are also considered. Simulation experiments have been conducted and the performance of the combinations is analysed by monitoring four measures, namely: 1 mean lead time 2 mean tardiness 3 number of jobs completed 4 percentage of tardy jobs.

Original language	English
Pages (from-to)	572-595
Number of pages	24
Journal	European Journal of Industrial Engineering
Volume	6
Issue number	5
DOIs	https://doi.org/10.1504/EJIE.2012.048855
Publication status	Published - Aug 2012
Externally published	Yes

Keywords

Flow shop
Performance measures
Priority rules
Simulation

ASJC Scopus subject areas

Industrial and Manufacturing Engineering

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10.1504/EJIE.2012.048855

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AB - Some of the previous research indicates that no single priority rule could perform excellently on those common performance measures. This study focuses on evaluating the impact of deploying combinations of four single priority rules on a three-stage manufacturing flow shop, i.e., different rules are employed at different workstation. Full factorial combinations of four commonly used priority rules, leading to 64 rule combinations, are analysed. Besides, variations in buffer capacity and due date allowance are taken into account. Both terminating and non-terminating systems are investigated in this study. For terminating system, variations in production volume are also considered. Simulation experiments have been conducted and the performance of the combinations is analysed by monitoring four measures, namely: 1 mean lead time 2 mean tardiness 3 number of jobs completed 4 percentage of tardy jobs.

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The performance of combinatorial priority rules in a manufacturing flow shop

Abstract

Keywords

ASJC Scopus subject areas

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