论文信息 - Compositionally Progressive Solutions of Synchronous FSM Equations

Compositionally Progressive Solutions of Synchronous FSM Equations

The paper addresses the problem of designing a component that combined with a known part of a system, called the context FSM, is a reduction of a given specification FSM. We study compositionally progressive solutions of synchronous FSM equations. Such solutions, when combined with the context, do not block any input that may occur in the specification, so they are of practical use. We show that, if a synchronous FSM equation has a compositionally progressive solution, then there is a largest regular compositionally progressive solution including all of them. We provide two different algorithms to compute a largest regular compositionally progressive solution: one deletes all compositionally non-progressive strings from a largest solution, the other splits states of a largest solution and then removes those inducing a non-progressive composition.

Tiziano Villa | Robert K. Brayton | Alberto L. Sangiovanni-Vincentelli | Nina Yevtushenko | Alexandre Petrenko

[1] Alessandro Giua,et al. A Survey of Petri Net Methods for Controlled Discrete Event Systems , 1997, Discret. Event Dyn. Syst..

[2] Gregor von Bochmann,et al. Submodule Construction and Supervisory Control: A Generalization , 2001, CIAA.

[3] Jan Vitek,et al. Secure composition of untrusted code: box π, wrappers, and causality types , 2003 .

[4] Jana Kosecka,et al. Control of Discrete Event Systems , 1992 .

[5] R. Brayton,et al. Sequential synthesis by language equation solving , 2003 .

[6] Christos G. Cassandras,et al. Introduction to Discrete Event Systems , 1999, The Kluwer International Series on Discrete Event Dynamic Systems.

[7] Gregor von Bochmann,et al. Progressive Solutions to a Parallel Automata Equation , 2003, FORTE.

[8] Stéphane Lafortune,et al. Bisimulation, the Supervisory Control Problem and Strong Model Matching for Finite State Machines , 1998, Discret. Event Dyn. Syst..

[9] Tiziano Villa,et al. Efficient solution of language equations using partitioned representations , 2005, Design, Automation and Test in Europe.

[10] Jeffrey D. Ullman,et al. Introduction to Automata Theory, Languages and Computation , 1979 .

[11] Ratnesh Kumar,et al. A Discrete Event Systems Approach for Protocol Conversion , 1997, Discret. Event Dyn. Syst..