Title :
Formal verification of hybrid systems
Author_Institution :
Univ. of Pennsylvania, Philadelphia, PA, USA
Abstract :
In formal verification, a designer first constructs a model, with mathematically precise semantics, of the system under design, and performs extensive analysis with respect to correctness requirements. The appropriate mathematical model for embedded control systems is hybrid systems that combines the traditional state-machine based models for discrete control with classical differential-equations based models for continuously evolving physical activities. In this article, we briefly review selected existing approaches to formal verification of hybrid systems, along with directions for future research.
Keywords :
differential equations; formal verification; differential equations; discrete control; embedded control systems; formal verification; hybrid systems; mathematical model; state-machine; Analytical models; Approximation methods; Automata; Computational modeling; Control systems; Mathematical model; Safety; Control systems; Formal methods; Hybrid systems; Model checking;
Conference_Titel :
Embedded Software (EMSOFT), 2011 Proceedings of the International Conference on
Conference_Location :
Taipei
Print_ISBN :
978-1-4503-0714-7
