A Recursive Method for Minimal Siphon Enumeration in Petri Nets
| Authors: | Benigno Arianna, Politecnico di Milano, Italy
Cordone Roberto, Università degli Studi di Milano, Italy
Ferrarini Luca, Politecnico di Milano, Italy
Piroddi Luigi, Politecnico di Milano, Italy |
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| Topic: | 1.3 Discrete Event and Hybrid Systems |
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| Session: | Petri Nets |
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| Keywords: | Petri-nets, Deadlock, Search methods, Recursive algorithms, Computational methods |
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Abstract
The enumeration of minimal siphons in ordinary Petri nets is fundamental in the assessment of behavioral properties and a crucial step in the development of deadlock prevention algorithms. A novel recursive algorithm is proposed in the paper for this purpose, based on theoretical results that extend well known properties described in the literature. The algorithm uses already found solutions to progressively decompose the search problem into smaller sub-problems. This recursive decomposition approach is combined with the LTUR procedure, which efficiently computes a siphon, based on a logical clause description approach. A prototypical version of the search algorithm has been developed and an experiment has been carried out on a large set of random test instances to evaluate the efficiency of the method.
