Title :
Incremental Bisimulation Abstraction Refinement
Author :
Lei Song ; Lijun Zhang ; Hermanns, Holger ; Godskesen, Jens Chr
Author_Institution :
Saarland Univ., Saarbrucken, Germany
Abstract :
Abstraction refinement techniques in probabilistic model checking are prominent approaches to the verification of very large or infinite-state probabilistic concurrent systems. At the core of the refinement step lies the implicit or explicit analysis of a counterexample. This paper proposes an abstraction refinement approach for the probabilistic computation tree logic (PCTL), which is based on incrementally computing a sequence of may- and must-quotient automata. These are induced by depth-bounded bisimulation equivalences of increasing depth. The approach is both sound and complete, since the equivalences converge to the genuine PCTL equivalence. Experimental results with a prototype implementation show the effectiveness of the approach.
Keywords :
automata theory; bisimulation equivalence; formal verification; probabilistic logic; probability; abstraction refinement approach; abstraction refinement techniques; depth-bounded bisimulation equivalences; explicit analysis; genuine PCTL equivalence; implicit analysis; incremental bisimulation abstraction refinement; infinite-state probabilistic concurrent systems; may-quotient automata; must-quotient automata; probabilistic computation tree logic; probabilistic model checking; refinement step; Abstracts; Algebra; Automata; Computational modeling; Model checking; Probabilistic logic; Safety; Abstraction Refinement; Bisimulation; Concurrent Probabilistic Systems; Probabilistic CTL model checking;
Conference_Titel :
Application of Concurrency to System Design (ACSD), 2013 13th International Conference on
Conference_Location :
Barcelona
DOI :
10.1109/ACSD.2013.5
