Decentralized state estimation and diagnosis of p-time labeled Petri nets systems

Patrice Bonhomme
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引用次数: 5

Abstract

This paper proposes a state estimation technique in a decentralized context for time dependent systems. The plant of the studied system is modeled by P-time labeled Petri nets (P-TLPN) and the set of events is partitioned into a set of observable and unobservable ones, leading to a partial observation configuration. Indeed, the observation is distributed over a set of distinct sites which have their own local vision of the system. Moreover, some event are indistinguishable as the same label can be associated with the same transition adding another source of non-determinism. Thus, thanks to a global coordinator helped by the consideration of the timing factor, the local information transmitted via the different sites will be exploited to assess the set of states consistent with the current considered observation. The developed technique is an iterative procedure coupled with a time feasibility analysis (i.e., schedulability) conducted for particular firing sequences allowing to explain the considered observation, called time explanations. A diagnosis procedure aiming at evaluating the occurrence of particular faults for each behavior is also provided.
p时间标记Petri网系统的分散状态估计与诊断
针对时变系统,提出了一种分散环境下的状态估计技术。采用p -时间标记Petri网(P-TLPN)对系统的对象进行建模,并将事件集划分为可观测事件集和不可观测事件集,从而得到部分观测配置。实际上,观测分布在一组不同的站点上,这些站点对系统有自己的局部视野。此外,有些事件是无法区分的,因为相同的标签可以与相同的转换相关联,这增加了另一个非确定性来源。因此,在考虑时间因素的帮助下,全球协调员将利用通过不同地点传输的本地信息来评估与当前考虑的观测结果一致的状态集。所开发的技术是一个迭代过程,加上对特定射击序列进行的时间可行性分析(即可调度性),允许解释所考虑的观察结果,称为时间解释。还提供了旨在评估每种行为的特定故障发生的诊断程序。
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