Research Article
The Best of Both Worlds: Analytically-Guided Simulation of HPnGs for Optimal Reachability
@INPROCEEDINGS{10.1007/978-3-031-48885-6_5, author={Mathis Niehage and Anne Remke}, title={The Best of Both Worlds: Analytically-Guided Simulation of HPnGs for Optimal Reachability}, proceedings={Performance Evaluation Methodologies and Tools. 16th EAI International Conference, VALUETOOLS 2023, Crete, Greece, September 6--7, 2023, Proceedings}, proceedings_a={VALUETOOLS}, year={2024}, month={1}, keywords={Statistical simulation State-space representation Hybrid Petri nets with general transitions}, doi={10.1007/978-3-031-48885-6_5} }- Mathis Niehage
Anne Remke
Year: 2024
The Best of Both Worlds: Analytically-Guided Simulation of HPnGs for Optimal Reachability
VALUETOOLS
Springer
DOI: 10.1007/978-3-031-48885-6_5
Abstract
Efficient reachability analysis, as well as statistical model checking have been proposed for the evaluation of Hybrid Petri nets with general transitions (HPnG). Both have different (dis-)advantages. The performance of statistical simulation suffers in large models and the number of required simulation runs to achieve a relatively small confidence interval increases considerably. The approach introduced for analytical reachability analysis of HPnGs however, becomes infeasible for a large number of random variables. To overcome these limitations, this paper applies statistical simulation for optimal reachability defined asuntilproperty in Stochastic Time Logic to a pre-computed symbolic state-space representation of HPnGs, i.e., the Parametric Location Tree (PLT), which has previously been used for model checking HPnGs. A case study on a water tank model shows the feasiblity of the approach and illustrates its advantages w.r.t. the original simulation and analysis approaches.
