Abstract
This thesis is concerned with the verification of concurrent systems modelled by process algebras. It provides methods and techniques for reasoning about temporal properties as described by assertions from an expressive modal logic -- the modal µ-calculus. It describes a compositional approach to model checking, efficient local and global algorithms for model checking finite-state systems, a general local fixed-point finding algorithm, a proof system for model checking infinite-state systems, a categorical completeness result for an intuitionistic version of the modal µ-calculus, and finally it shows some novel applications of the logic for expressing behavioural relations.
Publisher
Det Kgl. Bibliotek/Royal Danish Library
Cited by
13 articles.
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1. Extensible Proof Systems for Infinite-State Systems;ACM Transactions on Computational Logic;2023-11-18
2. Causal Reasoning for Safety in Hennessy Milner Logic;Fundamenta Informaticae;2020-03-31
3. Model-Checking Process Equivalences;Electronic Proceedings in Theoretical Computer Science;2012-10-07
4. A framework for automatic generation of security controller;Software Testing, Verification and Reliability;2010
5. 12 Modal mu-calculi;Handbook of Modal Logic;2007