A Maximally Permissive Deadlock Prevention Policy for FMS Based on Petri Net Siphon Control and the Theory of Regions

Zhiwu Li; MengChu Zhou; MuDer Jeng

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A Maximally Permissive Deadlock Prevention Policy for FMS Based on Petri Net Siphon Control and the Theory of Regions

机译：基于Petri网虹吸控制和区域理论的FMS最大允许死锁预防策略

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This paper addresses the deadlock problems in flexible manufacturing systems (FMS) by using a Petri net siphon control method and the theory of regions. The proposed policy consists of two stages. The first one, called siphons control, is to add, for every siphon that we identify, a monitor to the original net model such that it is optimally invariant controlled. In the second stage, the theory of regions is utilized to derive the net supervisors such that deadlocks can be prevented. The first-stage work significantly lowers the computational cost compared with the approach where the theory of regions is used alone. An FMS example is presented to illustrate the technique. By varying the markings of given net structures, this paper shows its computational advantages.

机译：本文利用Petri网虹吸控制方法和区域理论解决了柔性制造系统（FMS）中的死锁问题。拟议政策包括两个阶段。第一个称为虹吸控制，是为我们识别出的每个虹吸添加一个监视器到原始网络模型，以便对其进行最佳不变控制。在第二阶段，使用区域理论来推导网络监管者，从而可以避免僵局。与单独使用区域理论的方法相比，第一阶段的工作显着降低了计算成本。提供了一个FMS示例来说明该技术。通过改变给定网络结构的标记，本文显示了其计算优势。

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《IEEE transactions on automation science and engineering》 |2008年第1期|p.182-188|共7页
作者
Zhiwu Li; MengChu Zhou; MuDer Jeng;
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正文语种 eng
中图分类机器人技术;
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Petri nets; control system synthesis; flexible manufacturing systems; industrial control; optimal control; Petri net siphon control; deadlock problem; flexible manufacturing systems; maximally permissive deadlock prevention policy; net structure; optimally invaria;

机译：Petri网;控制系统综合;柔性制造系统;工业控制;最优控制;Petri网虹吸控制;死锁问题;柔性制造系统;最大允许死锁防止策略;网络结构;最优不变;

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A Maximally Permissive Deadlock Prevention Policy for FMS Based on Petri Net Siphon Control and the Theory of Regions

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