Title :
Algorithmic analysis of nonlinear hybrid systems
Author :
Henzinger, Thomas A. ; Ho, Pei-Hsin ; Wong-Toi, Howard
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
fDate :
4/1/1998 12:00:00 AM
Abstract :
We present two methods for translating nonlinear hybrid systems into linear hybrid automata. Properties of the nonlinear systems can then be inferred from the automatic analysis of the translated linear hybrid automata. The first method, called clock translation, replaces constraints on nonlinear variables by constraints on clock variables. The second method, called linear phase-portrait approximation, conservatively overapproximates the phase portrait of a hybrid automaton using piecewise-constant polyhedral differential inclusions. Both methods are sound for safety properties. We illustrate both methods by using HYTECH, a symbolic model checker for linear hybrid automata, to automatically check properties of a nonlinear temperature controller and of a predator-prey ecology
Keywords :
automata theory; continuous time systems; discrete time systems; ecology; formal verification; nonlinear systems; HYTECH symbolic model checker; clock translation; formal verification; linear hybrid automata; linear phase-portrait approximation; nonlinear hybrid systems; piecewise-constant polyhedral differential inclusions; predator-prey ecology; temperature controller; Algorithm design and analysis; Automata; Automatic control; Biological system modeling; Clocks; Environmental factors; Linear approximation; Nonlinear systems; Safety; Temperature control;
Journal_Title :
Automatic Control, IEEE Transactions on
