We propose a method, which is based on capsules, ports, protocols and entity classes to implement a hybrid automaton with input or output events and signals in order to quickly identify and implement control objects of an industrial control system. This method also supports control systems to be re-used in the new application design phase. We introduce step-by-step specification activities of a hybrid automaton such as the identification of principle control capsules, their ports and communication protocols, with their static and dynamic links which unify them. Then, we introduce important hypotheses which allow all the identified capsules of this system to make their evolutions. We applied this method to develop a sweeping camera control system which is a part of the person detection device by video.
[1]
Bran Selic,et al.
Using UML for Modeling Complex Real-Time Systems
,
1998,
LCTES.
[2]
Ivar Jacobson,et al.
The Unified Modeling Language User Guide
,
1998,
J. Database Manag..
[3]
Pravin Varaiya,et al.
What's decidable about hybrid automata?
,
1995,
STOC '95.
[4]
Thomas A. Henzinger,et al.
HYTECH: The Cornell HYbrid TECHnology Tool
,
1994,
Hybrid Systems.
[5]
N. Van Hien,et al.
Using objects collaboration to model the control of an industrial system
,
1999,
1999 7th IEEE International Conference on Emerging Technologies and Factory Automation. Proceedings ETFA '99 (Cat. No.99TH8467).