Equisolvability of series vs. controller's topology in synchronous language equations

Given a plant MA and a specification M/sub C/, the largest solution of the FSM equation M/sub X/ /spl middot/ M/sub A/ /spl les/ M/sub C/ contains all possible discrete controllers M/sub X/. Often we are interested in computing the complete solutions whose composition with the plant is exactly equiv...

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Bibliographic Details
Main Authors: Yevtushenko, N., Villa, T., Brayton, R.K., Petrenko, A., Sangiovanni-Vincentelli, A.L.
Format: Conference Proceeding
Language:English
Subjects:
Automata
Context modeling
Control system synthesis
Control systems
Equations
Logic design
Magnetic heads
Supervisory control
Tail
Topology
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Summary:Given a plant MA and a specification M/sub C/, the largest solution of the FSM equation M/sub X/ /spl middot/ M/sub A/ /spl les/ M/sub C/ contains all possible discrete controllers M/sub X/. Often we are interested in computing the complete solutions whose composition with the plant is exactly equivalent to the specification. Not every solution contained in the largest one satisfies such property, that holds instead for the complete solutions of the series topology. We study the relation between the solvability of an equation for the series topology and of the corresponding equation for the controller's topology. We establish that, if M/sub A/ is a deterministic FSM, then the FSM equation M/sub X/ /spl middot/ M/sub A/ /spl les/ M/sub C/ is solvable for the series topology with an unknown head component iff it is solvable for the controller's topology. Our proof is constructive, i.e., for a given solution M/sub B/ of the series topology it shows how to build a solution M/sub D/ of the controller's topology and vice versa.
ISSN:1530-1591
1558-1101
DOI:10.1109/DATE.2003.1253778