Maximizing the throughput of a rotating Seru with nonpreemptive discrete stations

Maximizing the throughput of a rotating Seru with nonpreemptive discrete stations

Seru production systems are an effective way to respond to ever‐changing market demand. This article focuses on maximizing the throughput of rotating serus with nonpreemptive stations, where a worker's operations cannot be disrupted. We analyze the effects of unbalanced worker velocities on non...

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Veröffentlicht in:Naval research logistics 2023-12, Vol.70 (8), p.910-928
Hauptverfasser: Gai, Yin, Yin, Yong, Li, Dongni, Zhang, Yaoxin, Tang, Jiafu
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Sprache:eng
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Comparative analysis
Design optimization
Dynamical systems
Maximization
Rotation
System effectiveness
Workers
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container_issue 8
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container_title Naval research logistics
container_volume 70
creator Gai, Yin
Yin, Yong
Li, Dongni
Zhang, Yaoxin
Tang, Jiafu
description Seru production systems are an effective way to respond to ever‐changing market demand. This article focuses on maximizing the throughput of rotating serus with nonpreemptive stations, where a worker's operations cannot be disrupted. We analyze the effects of unbalanced worker velocities on non‐value‐added idle times. Through the use of dynamical system theories, we explicate the mechanism and dynamics of rotating serus , and identify the rules used to coordinate workers and distribute work content among stations to achieve the highest throughput. These findings provide practical guidelines for managers in floor shops for optimizing rotating seru design and maximizing throughput. Additionally, we explore the chaotic characteristics of rotating serus and simulate the effect of various factors on throughput. Finally, our comparative analysis demonstrates that the rotating seru offers a viable alternative to existing production systems to adapt to fluctuating demand.
doi_str_mv 10.1002/nav.22140
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source Wiley Online Library Journals Frontfile Complete; EBSCOhost Business Source Complete
subjects Comparative analysis
Design optimization
Dynamical systems
Maximization
Rotation
System effectiveness
Workers
title Maximizing the throughput of a rotating Seru with nonpreemptive discrete stations
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