Repetitive control is a methodology for the tracking of a periodic reference signal. This paper develops a new approach to repetitive control systems design using receding horizon control with frequency decomposition of the reference signal. Moreover, design and implementation issues for this form of repetitive predictive control are investigated from the perspectives of controller complexity and the effects of measurement noise. The analysis is supported by a simulation study on a multi-input multi-output robot arm where the model has been constructed from measured frequency response data, and experimental results from application to an industrial AC motor
Tracking and rejecting periodic signals are common tasks in many control applications. A well-known ...
Repetitive control is useful if periodic disturbances act on a control system. Perfect (asymptotic) ...
Abstract — In repetitive control, the enhanced servo per-formance at multiple repetitive frequencies...
It is well known from the internal model control principle that in order to follow a periodic refere...
A multivariable predictive-repetitive controller was developed by the authors in their recent work, ...
This paper addresses the design and implementation issues of predictive-repetitive control systems w...
This paper develops an observer-based predictive repetitive control system to track periodic referen...
This paper develops a predictive repetitive control algorithm based on frequency decomposition. In p...
In many control system applications, tracking a periodic reference signal or rejecting a disturbance...
This paper develops a new method for the design of predictive repetitive control systems to track pe...
This paper develops a new method for the design of predictive repetitive control systems to track pe...
This paper presents a repetitive model predictive controller to reject periodic disturbances in indu...
Repetitive Control (RC) has been widely used to track a periodic reference signal, or to reject peri...
This thesis will concern control systems ability to enhance performance by repeating, while maintain...
Repetitive control is useful if periodic disturbances act on a control system. Perfect (asymptotic) ...
Tracking and rejecting periodic signals are common tasks in many control applications. A well-known ...
Repetitive control is useful if periodic disturbances act on a control system. Perfect (asymptotic) ...
Abstract — In repetitive control, the enhanced servo per-formance at multiple repetitive frequencies...
It is well known from the internal model control principle that in order to follow a periodic refere...
A multivariable predictive-repetitive controller was developed by the authors in their recent work, ...
This paper addresses the design and implementation issues of predictive-repetitive control systems w...
This paper develops an observer-based predictive repetitive control system to track periodic referen...
This paper develops a predictive repetitive control algorithm based on frequency decomposition. In p...
In many control system applications, tracking a periodic reference signal or rejecting a disturbance...
This paper develops a new method for the design of predictive repetitive control systems to track pe...
This paper develops a new method for the design of predictive repetitive control systems to track pe...
This paper presents a repetitive model predictive controller to reject periodic disturbances in indu...
Repetitive Control (RC) has been widely used to track a periodic reference signal, or to reject peri...
This thesis will concern control systems ability to enhance performance by repeating, while maintain...
Repetitive control is useful if periodic disturbances act on a control system. Perfect (asymptotic) ...
Tracking and rejecting periodic signals are common tasks in many control applications. A well-known ...
Repetitive control is useful if periodic disturbances act on a control system. Perfect (asymptotic) ...
Abstract — In repetitive control, the enhanced servo per-formance at multiple repetitive frequencies...