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Bibliographic Details
Main Authors: Gagliardi, Hernan, Braberman, Victor, Uchitel, Sebastian
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.16557
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author Gagliardi, Hernan
Braberman, Victor
Uchitel, Sebastian
author_facet Gagliardi, Hernan
Braberman, Victor
Uchitel, Sebastian
contents We present a compositional approach to controller synthesis of discrete event system controllers with linear temporal logic (LTL) goals. We exploit the modular structure of the plant to be controlled, given as a set of labelled transition systems (LTS), to mitigate state explosion that monolithic approaches to synthesis are prone to. Maximally permissive safe controllers are iteratively built for subsets of the plant LTSs by solving weaker control problems. Observational synthesis equivalence is used to reduce the size of the controlled subset of the plant by abstracting away local events. The result of synthesis is also compositional, a set of controllers that when run in parallel ensure the LTL goal. We implement synthesis in the MTSA tool for an expressive subset of LTL, GR(1), and show it computes solutions to that can be up to 1000 times larger than those that the monolithic approach can solve.
format Preprint
id arxiv_https___arxiv_org_abs_2506_16557
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Scaling GR(1) Synthesis via a Compositional Framework for LTL Discrete Event Control
Gagliardi, Hernan
Braberman, Victor
Uchitel, Sebastian
Software Engineering
We present a compositional approach to controller synthesis of discrete event system controllers with linear temporal logic (LTL) goals. We exploit the modular structure of the plant to be controlled, given as a set of labelled transition systems (LTS), to mitigate state explosion that monolithic approaches to synthesis are prone to. Maximally permissive safe controllers are iteratively built for subsets of the plant LTSs by solving weaker control problems. Observational synthesis equivalence is used to reduce the size of the controlled subset of the plant by abstracting away local events. The result of synthesis is also compositional, a set of controllers that when run in parallel ensure the LTL goal. We implement synthesis in the MTSA tool for an expressive subset of LTL, GR(1), and show it computes solutions to that can be up to 1000 times larger than those that the monolithic approach can solve.
title Scaling GR(1) Synthesis via a Compositional Framework for LTL Discrete Event Control
topic Software Engineering
url https://arxiv.org/abs/2506.16557