Saeede Nazari Goldar, A. Doustmohammadi, Solmaz Babayi Ajabshir
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引用次数: 12
摘要
虽然混合Petri网(Hybrid Petri Net, HPN)是一种流行的混合生产系统建模形式,但由于大型系统的大维度,其HPN模型的分析和控制非常复杂。为了克服这个问题,一个典型的方法是将网络分解成子网,并通过分层或分散的结构来控制工厂。虽然这一概念在文献中已经被广泛地讨论过,但是对于离散型pn的研究还很缺乏。本文提出了一种一阶hppn分解的新方法,并通过协调器对子网进行分层控制。通过实例验证了该方法的优越性。利用分解后的FOHPN模型对作业车间进行了实例分析,并将优化结果与原系统的结果进行了比较。提出的FOHPN模型的分层控制结构降低了通信链路的成本,提高了系统的可靠性、局部维护和部分系统重新设计。
Decomposition of first-order Hybrid Petri Nets for hierarchical control of manufacturing systems
Although Hybrid Petri Net (HPN) is a popular formalism in modeling hybrid production systems, the HPN models of large scale systems are substantially complicated to analyze and control due to large dimensions of such systems. To overcome this problem, a typical approach is to decompose the net into subnets and control the plant through hierarchical or decentralized structures. Although this concept has been widely discussed in the literature for discrete PNs, there is a lack of research for HPNs. In this paper, a new method for decomposition of first-order HPNs (FOHPN) and the hierarchical control of the subnets through a coordinator is proposed. The advantage of using the proposed approach is validated by an existing example. A Job-shop case study is analyzed using decomposed FOHPN model and the optimization results are compared with the results of the original system. The proposed hierarchical control structure of FOHPN model yields reduction in cost of communication links, improvement in the reliability of the system, local maintenance, and partially system redesign.
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