Title :
A separation principle for hybrid control system design
Author :
Bencze, William J. ; Ranklin, Gene F F
Author_Institution :
Inf. Syst. Lab., Stanford Univ., CA, USA
Abstract :
A method is presented here, based on automatic control system design practice, for the synthesis of hybrid control systems, controllers which contain both real-time feedback loops and logical decision-making components. In the proposed framework, the overall design task is separated into three component parts: 1) design of the real-time control loops; 2) synthesis of the decision-making logic; and 3) construction of appropriate boolean/real-time translation routines. This is an effective partitioning of the control system design task, as shown through two examples: 1) control of a highly flexible structure and 2) a robotic manipulator control task. This framework was found to be compatible with expert system-based intelligent control systems and can employ expert system techniques when necessary or effective
Keywords :
control engineering; control system CAD; feedback; formal logic; boolean/real-time translation routines; control system synthesis; expert system-based intelligent control systems; highly flexible structure; hybrid control system design; logical decision-making components; real-time feedback loops; robotic manipulator control; separation principle; Automatic control; Boolean functions; Control system synthesis; Control systems; Decision making; Feedback loop; Flexible structures; Logic design; Real time systems; Robots;
Conference_Titel :
Computer-Aided Control System Design, 1994. Proceedings., IEEE/IFAC Joint Symposium on
Conference_Location :
Tucson, AZ
Print_ISBN :
0-7803-1800-5
DOI :
10.1109/CACSD.1994.288911
