State equivalences for rectangular hybrid automata

T.A. Henzinger, P. Kopke, in:, Schloss Dagstuhl - Leibniz-Zentrum für Informatik, 1996, pp. 530–545.

No fulltext has been uploaded. References only!

Conference Paper | Published
Series Title
Three natural equivalence relations on the infinite state space of a hybrid automaton are language equivalence, simulation equivalence, and bisimulation equivalence. When one of these equivalence relations has a finite quotient, certain model checking and controller synthesis problems are decidable. When bounds on the number of equivalence classes are obtained, bounds on the running times of model checking and synthesis algorithms follow as corollaries. We characterize the time-abstract versions of these equivalence relations on the state spaces of rectangular hybrid automata (RHA), in which each continuous variable is a clock with bounded drift. These automata are useful for modeling communications protocols with drifting local clocks, and for the conservative approximation of more complex hybrid systems. Of our two main results, one has positive implications for automatic verification, and the other has negative implications. On the positive side, we find that the (finite) language equivalence quotient for RHA is coarser than was previously known by a multiplicative exponential factor. On the negative side, we show that simulation equivalence for RHA is equality (which obviously has an infinite quotient). Our main positive result is established by analyzing a subclass of timed automata, called one-sided timed automata (OTA), for which the language equivalence quotient is coarser than for the class of all timed automata. An exact characterization of language equivalence for OTA requires a distinction between synchronous and asynchronous definitions of (bi)simulation: if time actions are silent, then the induced quotient for OTA is coarser than if time actions (but not their durations) are visible.
Publishing Year
Date Published
This research was supported in part by ONR Young Investigator award N00014-95-1-0520, by NSF CAREER award CCR-9501708, by NSF grant CCR-9504469, by Air Force Office of Scientific Research contract F49620-93-1-0056, by ARPA grant NAG2-892, and by the U.S. Army Research Office through the Mathematical Sciences Institute of Cornell University, Contract Number DAAL03-91-C-0027.
530 - 545
CONCUR: Concurrency Theory

Cite this

Henzinger TA, Kopke P. State equivalences for rectangular hybrid automata. In: Vol 1119. Schloss Dagstuhl - Leibniz-Zentrum für Informatik; 1996:530-545. doi:10.1007/3-540-61604-7_74
Henzinger, T. A., & Kopke, P. (1996). State equivalences for rectangular hybrid automata (Vol. 1119, pp. 530–545). Presented at the CONCUR: Concurrency Theory, Schloss Dagstuhl - Leibniz-Zentrum für Informatik.
Henzinger, Thomas A, and Peter Kopke. “State Equivalences for Rectangular Hybrid Automata,” 1119:530–45. Schloss Dagstuhl - Leibniz-Zentrum für Informatik, 1996.
T. A. Henzinger and P. Kopke, “State equivalences for rectangular hybrid automata,” presented at the CONCUR: Concurrency Theory, 1996, vol. 1119, pp. 530–545.
Henzinger TA, Kopke P. 1996. State equivalences for rectangular hybrid automata. CONCUR: Concurrency Theory, LNCS, vol. 1119, 530–545.
Henzinger, Thomas A., and Peter Kopke. State Equivalences for Rectangular Hybrid Automata. Vol. 1119, Schloss Dagstuhl - Leibniz-Zentrum für Informatik, 1996, pp. 530–45, doi:10.1007/3-540-61604-7_74.


Marked Publications

Open Data IST Research Explorer

Search this title in

Google Scholar