Automata over infinite words, also known as omega-automata, play a key role in the verification and synthesis of reactive systems. The spectrum of omega-automata is defined by two characteristics: the acceptance condition (e.g. Büchi or parity) and the determinism (e.g., deterministic or nondeterministic) of an automaton. These characteristics play a crucial role in applications of automata theory. For example, certain acceptance conditions can be handled more efficiently than others by dedicated tools and algorithms. Furthermore, some applications, such as synthesis and probabilistic model checking, require that properties are represented as some type of deterministic omega-automata. However, properties cannot always be represented by automata with the desired acceptance condition and determinism. In this paper we study the problem of approximating linear-time properties by automata in a given class. Our approximation is based on preserving the language up to a user-defined precision given in terms of the size of the finite lasso representation of infinite executions that are preserved. We study the state complexity of different types of approximating automata, and provide constructions for the approximation within different automata classes, for example, for approximating a given automaton by one with a simpler acceptance condition.
History
Preferred Citation
Rayna Dimitrova, Bernd Finkbeiner and Hazem Torfah. Approximate Automata for Omega-Regular Languages. In: International Symposium on Automated Technology for Verification and Analysis (ATVA). 2019.
Primary Research Area
Reliable Security Guarantees
Name of Conference
International Symposium on Automated Technology for Verification and Analysis (ATVA)
Legacy Posted Date
2020-05-25
Open Access Type
Unknown
BibTeX
@inproceedings{cispa_all_3081,
title = "Approximate Automata for Omega-Regular Languages",
author = "Dimitrova, Rayna and Finkbeiner, Bernd and Torfah, Hazem",
booktitle="{International Symposium on Automated Technology for Verification and Analysis (ATVA)}",
year="2019",
}