Title :
Failure Semantics for Modal Transition Systems
Author :
Bujtor, Ferenc ; Vogler, Walter
Abstract :
With the aim to preserve deadlock freedom, we define a new refinement relation for modal transition systems (MTS), using an MTS-specific variant of testing in the sense of De Nicola and Hennessy. We characterize this refinement with a kind of failure semantics, and we show that it ´supports itself´ e.g. in the sense of thoroughness - in contrast to the standard modal refinement. We present a conjunction operator w.r.t. our new refinement, this operator is very different from others found in the literature, and it demonstrates that the conjunction of two MTSs is an MTS - again in contrast to the case of modal refinement. Finally, we also consider a may-testing approach.
Keywords :
failure analysis; reliability theory; MTS conjunction; MTS-specific testing variant; conjunction operator; deadlock freedom preservation; failure semantics; may-testing approach; modal refinement; modal transition systems; standard modal refinement relation; thoroughness; Approximation methods; Automata; Semantics; Standards; Syntactics; System recovery; Testing; conjunction; failure semantics; modal transition systems; refinement; testing;
Conference_Titel :
Application of Concurrency to System Design (ACSD), 2014 14th International Conference on
Conference_Location :
Tunis La Marsa
DOI :
10.1109/ACSD.2014.11
