Title :
Use of a rule-based system for process control
Author :
Bernard, John A.
Author_Institution :
MIT Nucl. Reactor Lab., Cambridge, MA, USA
Abstract :
A rule-based, digital, closed-loop controller that incorporates fuzzy logic has been designed and implemented for the control of power on the 5-MW Massachusetts Institute of Technology (MIT) Research Reactor under both steady-state and transient conditions. A comparison is made of the rule-based and analytic approaches. Differences in the division of labor between plant engineers and control specialists, the type of knowledge required and its acquisition, the use of performance criteria, and controller testing are discussed. The design, implementation, and calibration of rule-based controllers are reviewed, with specific examples taken from the completed work on the MIT Research Reactor. The possible role of rule-based technology in process control is evaluated. It is proposed that since rule-based systems are generally more robust than their analytic counterparts, they should be used both as backups to analytic controllers and as a means of improving the man-machine interface by providing human operators with the rationale for automatic control actions.<>
Keywords :
closed loop systems; digital control; expert systems; fission reactor core control and monitoring; fission research reactors; fuzzy logic; knowledge acquisition; power control; 5 MW; 5 MW research reactor; Massachusetts Institute of Technology; analytic approaches; calibration; closed-loop controller; controller testing; digital control; fission research reactors; fuzzy logic; knowledge acquisition; performance criteria; rule-based system; steady-state; transient conditions; Automatic control; Digital control; Fuzzy logic; Inductors; Knowledge based systems; Knowledge engineering; Power engineering and energy; Process control; Steady-state; Testing;
Journal_Title :
Control Systems Magazine, IEEE
