Abstract
Context:
Petri net slicing is a technique to reduce the size of a Petri net to ease the analysis or understanding of the original Petri net.
Objective:
Presenting two new Petri net slicing algorithms to isolate those places and transitions of a Petri net (the slice) that may contribute tokens to one or more places given (the slicing criterion).
Method:
The two algorithms proposed are formalized. The maximality of the first algorithm and the minimality of the second algorithm are formally proven. Both algorithms together with three other state-of-the-art algorithms have been implemented and integrated into a single tool so that we have been able to carry out a fair empirical evaluation.
Results:
Besides the two new Petri net slicing algorithms, a public, free, and open-source implementation of five algorithms is reported. The results of an empirical evaluation of the new algorithms and the slices they produce are also presented.
Conclusions:
The first algorithm collects all places and transitions that may contribute tokens (in
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