Design rules for optimal feedforward controllers with lead-lag structure in the presence of measurable disturbances are presented. The design rules are based on stable first-order models with time delays, FOTD, and are optimal in the sense of minimizing the integrated-squared error. The rules are derived for an open-loop setting, considering a step disturbance. This paper also discusses a general feedforward structure, which enables decoupling in the design of feedback and feedforward controllers, and justifies the open-loop setting
The problem of determining robust, low order controllers which achieve stability and disturbance att...
In this paper, a new systematic approach to the design of feedforward-feedback (FF-FB) control syste...
A time domain formulation for the multichannel feedforward control problem is used to derive an opti...
Feedforward control from measurable disturbances can significantly improve the performance in contro...
Feedforward from measurable disturbances is a powerful complement to feedback control to improve dis...
Feedforward control can be considered as the most well-known control approach to deal with measurabl...
This paper presents new simple tuning rules for the gain in feedforward compensators. When the ideal...
In this work, the load disturbance rejection problem is studied. Specifically, the feedforward compe...
This paper describes new simple tuning rules for design of feedforward compensators. The problem of ...
This paper considers optimal input design when the intended use of the identified model is to constr...
This paper describes the problem of load disturbance rejection using feedforward for the case when p...
In this study, design of low-order feedforward controllers from both reference signal and measurable...
In this paper, a new design and tuning procedure for a PID plus feedforward controller is proposed. ...
© 2015, Institute of Control, Robotics and Systems and The Korean Institute of Electrical Engineers ...
In this paper we study the effect of model errors on the performance of feedforward controllers. In ...
The problem of determining robust, low order controllers which achieve stability and disturbance att...
In this paper, a new systematic approach to the design of feedforward-feedback (FF-FB) control syste...
A time domain formulation for the multichannel feedforward control problem is used to derive an opti...
Feedforward control from measurable disturbances can significantly improve the performance in contro...
Feedforward from measurable disturbances is a powerful complement to feedback control to improve dis...
Feedforward control can be considered as the most well-known control approach to deal with measurabl...
This paper presents new simple tuning rules for the gain in feedforward compensators. When the ideal...
In this work, the load disturbance rejection problem is studied. Specifically, the feedforward compe...
This paper describes new simple tuning rules for design of feedforward compensators. The problem of ...
This paper considers optimal input design when the intended use of the identified model is to constr...
This paper describes the problem of load disturbance rejection using feedforward for the case when p...
In this study, design of low-order feedforward controllers from both reference signal and measurable...
In this paper, a new design and tuning procedure for a PID plus feedforward controller is proposed. ...
© 2015, Institute of Control, Robotics and Systems and The Korean Institute of Electrical Engineers ...
In this paper we study the effect of model errors on the performance of feedforward controllers. In ...
The problem of determining robust, low order controllers which achieve stability and disturbance att...
In this paper, a new systematic approach to the design of feedforward-feedback (FF-FB) control syste...
A time domain formulation for the multichannel feedforward control problem is used to derive an opti...