Add to ORKGFor mechatronic motion systems, the performance increases significantly if, besides feedback control, also feed-forward control is used. This feed-forward part should contain the (stable part of the) inverse of the plant. This inverse is difficult to obtain if non-linear dynamics are present. To overcome this problem, learning feed-forward control can be applied. The properties of the learning mechanism are of importance in this setting. In the paper, a support vector machine is proposed as the learning mechanism. It is shown that this mechanism has several advantages over other learning techniques when applied to learning feed-forward control. The method is tested with simulation
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...
Learning control enables substantial performance improvement in control applications. For instance i...
This work presents a survey of feedforward design. We will show why is important for motion systems ...
For mechatronic motion systems, the performance increases significantly if, besides feedback control...
The tracking performance of a motion system increases drastically, if in addition to a feedback comp...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Inspired by learning feed–forward control structures, this paper considers the adaptation of the par...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
For motion control, learning feedforward controllers (LFFCs) should be applied when accurate process...
In this paper we consider the problem of feedforward controller design for industrial linear motors....
The design and realization of an online learning motion controller for a linear motor is presented, ...
Servo control is usually done by means of model-based feedback controllers, which has two difficulti...
Feedforward control plays a key role in achieving high performance for industrial motion systems tha...
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...
Learning control enables substantial performance improvement in control applications. For instance i...
This work presents a survey of feedforward design. We will show why is important for motion systems ...
For mechatronic motion systems, the performance increases significantly if, besides feedback control...
The tracking performance of a motion system increases drastically, if in addition to a feedback comp...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
Inspired by learning feed–forward control structures, this paper considers the adaptation of the par...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
For motion control, learning feedforward controllers (LFFCs) should be applied when accurate process...
In this paper we consider the problem of feedforward controller design for industrial linear motors....
The design and realization of an online learning motion controller for a linear motor is presented, ...
Servo control is usually done by means of model-based feedback controllers, which has two difficulti...
Feedforward control plays a key role in achieving high performance for industrial motion systems tha...
This paper considers model-based feedforward for motion systems. The proposed feedforward controller...
Learning control enables substantial performance improvement in control applications. For instance i...
This work presents a survey of feedforward design. We will show why is important for motion systems ...