This paper describes the implementation, using a microprocessor, of a self-tuning control algorithm on a heating system. The algorithm is based on recursive least squares parameter estimation with a state-space, pole placement design criterion and shows how the controller behaves when applied to an actual system
A conventional PID-controller is used to investigate some process-models. These are going to be used...
Available commercial applications of power system stabilizers assure optimal damping of synchronous ...
Real-time self tuning control was implemented on a coupled tank pilot plant using a microcomputer. T...
Extended horizon and k-incremental self-tuning controllers were implemented using a microcomputer on...
Paper deals with implementation of self-tuning digital PID controller on general-purpose 8-bit Frees...
In this paper the design and the implementation of a self-tuning PID controller is presented. The pr...
This work deals with finding and verifying available identification methods and self-tuning controll...
This chapter deals mainly with software implementation of selected digital self-tuning control algor...
The thesis tests the implementation of an adaptive identifier and controller on a Texas Instrument T...
The speed and accuracy of microprocessors has extensively changed the way control systems are design...
This paper considers implementation and test of a self-tuning PI-controller based on pole-placement....
Due to time-varying effects in electro-hydraulic actuator (EHA) system parameters, a self-tuning con...
Parameter estimation of linear Discrete-time systems by linear programming using two error criteria,...
This paper employs a state space system description to provide a pole placement scheme via state fee...
The research reported in this thesis develops strategies for applying self-tuning control theory to ...
A conventional PID-controller is used to investigate some process-models. These are going to be used...
Available commercial applications of power system stabilizers assure optimal damping of synchronous ...
Real-time self tuning control was implemented on a coupled tank pilot plant using a microcomputer. T...
Extended horizon and k-incremental self-tuning controllers were implemented using a microcomputer on...
Paper deals with implementation of self-tuning digital PID controller on general-purpose 8-bit Frees...
In this paper the design and the implementation of a self-tuning PID controller is presented. The pr...
This work deals with finding and verifying available identification methods and self-tuning controll...
This chapter deals mainly with software implementation of selected digital self-tuning control algor...
The thesis tests the implementation of an adaptive identifier and controller on a Texas Instrument T...
The speed and accuracy of microprocessors has extensively changed the way control systems are design...
This paper considers implementation and test of a self-tuning PI-controller based on pole-placement....
Due to time-varying effects in electro-hydraulic actuator (EHA) system parameters, a self-tuning con...
Parameter estimation of linear Discrete-time systems by linear programming using two error criteria,...
This paper employs a state space system description to provide a pole placement scheme via state fee...
The research reported in this thesis develops strategies for applying self-tuning control theory to ...
A conventional PID-controller is used to investigate some process-models. These are going to be used...
Available commercial applications of power system stabilizers assure optimal damping of synchronous ...
Real-time self tuning control was implemented on a coupled tank pilot plant using a microcomputer. T...
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