Characterizing finite Kripke structures in propositional temporal logic
Theoretical Computer Science - International Joint Conference on Theory and Practice of Software Development, P
Minimal state graph generation
Science of Computer Programming
Model checking
Analysis of Timed Systems Using Time-Abstracting Bisimulations
Formal Methods in System Design
Model Checking and Modular Verification
CONCUR '91 Proceedings of the 2nd International Conference on Concurrency Theory
Propositional Temporal Logics and Equivalences
CONCUR '92 Proceedings of the Third International Conference on Concurrency Theory
Minimization of Timed Transition Systems
CONCUR '92 Proceedings of the Third International Conference on Concurrency Theory
Timing Assumptions and Verification of Finite-State Concurrent Systems
Proceedings of the International Workshop on Automatic Verification Methods for Finite State Systems
Analysis of Timed Systems Based on Time-Abstracting Bisimulation
CAV '96 Proceedings of the 8th International Conference on Computer Aided Verification
CADE-17 Proceedings of the 17th International Conference on Automated Deduction
Automated Verification of Infinite State Concurrent Systems
PPAM '01 Proceedings of the th International Conference on Parallel Processing and Applied Mathematics-Revised Papers
Computing simulations on finite and infinite graphs
FOCS '95 Proceedings of the 36th Annual Symposium on Foundations of Computer Science
Minimization Algorithms for Time Petri Nets
Fundamenta Informaticae - Concurrency Specification and Programming (CS&P 2003)
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The paper presents a modification of the standard partitioning technique to generate abstract state spaces preserving similarity for Timed Automata. Since this relation is weaker than bisimilarity, most of the obtained models (state spaces) are smaller than bisimilar ones, but still preserve the universal fragments of branching time temporal logics. The theoretical results are exemplified for strong, delay, and observational simulation relations.