Intelligent mechatronics makes it possible to compensate for effects that are difficult to compensate for by construction or by linear control, by including some intelligence into the system. The compensation of state dependent effects, e.g. friction, cogging and mass deviation, can be realised by learning feedforward control. This method identifies these disturbing effects as function of their states and compensates for these, before they introduce an error. Because the effects are learnt as function of their states, this method can be used for non-repetitive motions. The learning of state dependent effects relies on the update signal that is used. In previous work, the feedback control signal was used as an error measure between the appro...
Recent findings have shown that humans can adapt their internal control model to account for the cha...
A primary technology driver in high precision manufacturing is the position measurement and control ...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
A signal processing technique has been developed to dramatically increase both the usable bandwidth ...
Feedforward control can significantly improve the performance of a motion system through compensatio...
Abstract Motor control is the study of how organisms make accurate goaldirected movements. Here we c...
For motion control, learning feedforward controllers (LFFCs) should be applied when accurate process...
Learning control enables substantial performance improvement in control applications. For instance i...
System inversion is at the basis of many feedforward and learning control algorithms. This paper aim...
Feedback control provides the basis of many different control schemes. However, even high gain feedb...
This work presents a survey of feedforward design. We will show why is important for motion systems ...
Feedforward control plays a key role in achieving high performance for industrial motion systems tha...
Abstract--A common technique in neurocontrol is that of controlling a plant by static state feedback...
This work introduces two principles to compensate a deterministic excitation from a system: adaptive...
For mechatronic motion systems, the performance increases significantly if, besides feedback control...
Recent findings have shown that humans can adapt their internal control model to account for the cha...
A primary technology driver in high precision manufacturing is the position measurement and control ...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...
A signal processing technique has been developed to dramatically increase both the usable bandwidth ...
Feedforward control can significantly improve the performance of a motion system through compensatio...
Abstract Motor control is the study of how organisms make accurate goaldirected movements. Here we c...
For motion control, learning feedforward controllers (LFFCs) should be applied when accurate process...
Learning control enables substantial performance improvement in control applications. For instance i...
System inversion is at the basis of many feedforward and learning control algorithms. This paper aim...
Feedback control provides the basis of many different control schemes. However, even high gain feedb...
This work presents a survey of feedforward design. We will show why is important for motion systems ...
Feedforward control plays a key role in achieving high performance for industrial motion systems tha...
Abstract--A common technique in neurocontrol is that of controlling a plant by static state feedback...
This work introduces two principles to compensate a deterministic excitation from a system: adaptive...
For mechatronic motion systems, the performance increases significantly if, besides feedback control...
Recent findings have shown that humans can adapt their internal control model to account for the cha...
A primary technology driver in high precision manufacturing is the position measurement and control ...
Advanced feedforward control methods enable mechatronic systems to perform varying motion tasks with...