Title :
Designing controllers for reachability
Author :
Seceleanu, Cristina Cerschi
Author_Institution :
Abo Akademi Univ., Turku, Finland
Abstract :
We propose a deductive method for constructing reliable reachability controllers, with application to fault-tolerant discrete systems. Designing the controller reduces to finding a strategy to win specific games defined by sequential angelic and demonic nondeterministic statements. During the game, the plant (the demon) tries to prevent the controller (the angel) from achieving its respective goal, modeled by a special kind of liveness property. We show that the angel has a way to enforce the required property, provided that adequate invariance and termination properties hold. The control strategy is obtained by propagating certain assertions into the angelic statement. We illustrate our method on a data-processing application.
Keywords :
control engineering computing; control system synthesis; formal specification; game theory; reachability analysis; software fault tolerance; data processing application; deductive method; fault-tolerant discrete systems; game; invariance property; liveness property; reachability controller design; sequential angelic nondeterministic statements; sequential demonic nondeterministic statements; termination property; Application software; Calculus; Computer applications; Computer science; Control system synthesis; Control systems; Fault tolerant systems; State-space methods;
Conference_Titel :
Computer Software and Applications Conference, 2005. COMPSAC 2005. 29th Annual International
Print_ISBN :
0-7695-2413-3
DOI :
10.1109/COMPSAC.2005.68
