Title :
Compositional specification and structured verification of hybrid systems in cTLA
Author :
Herrmann, Peter ; Graw, Gunter ; Krumm, Heiko
Author_Institution :
Fachbereich Inf., Dortmund Univ., Germany
Abstract :
Many modern chemical plants have to be modelled as complex hybrid systems consisting of various continuous and event-discrete components. Besides the modular and easy to read specification, the formal verification of required properties (e.g., safety properties) is a major problem, due to the complexity of the models. In practice, mostly informal argumentations exist which show that certain properties hold. The informal argumentation for one specific property does not deal with the complex system model as a whole but considers specific parts and aspects only. Our approach supports formal proofs which correspond to the informal argumentations even with respect to the use of subsystems only. It is based on the specification language cTLA supporting modular descriptions of hybrid systems. We outline cTLA and introduce the approach by means of a hybrid example system
Keywords :
chemical engineering computing; formal specification; formal verification; safety; specification languages; temporal logic; theorem proving; cTLA; chemical plants; complex hybrid systems; complex system model; compositional specification; easy to read specification; event-discrete components; formal proofs; formal verification; hybrid example system; informal argumentations; modular descriptions; safety properties; specification language; structured verification; Electrical capacitance tomography; Identity-based encryption; Logic; Process control; Safety;
Conference_Titel :
Object-Oriented Real-time Distributed Computing, 1998. (ISORC 98) Proceedings. 1998 First International Symposium on
Conference_Location :
Kyoto
Print_ISBN :
0-8186-8430-5
DOI :
10.1109/ISORC.1998.666805
