When iterative learning control (ILC) is applied to improve a system's tracking performance, the trial-invariant reference input is typically known or contained in a prescribed set of signals. To account for this knowledge, we propose a novel ILC structure that only responds to a given set of trial-invariant inputs. The controllers are called reduced-order ILCs as their order is less than the discrete-time trial length. Exploiting all knowledge available on the input signals is instrumental in facing the fundamental performance limitations in ILC: an ILC is bound to amplify trial-varying inputs and reducing this trial-varying performance degradation invokes a slower learning transient. We present a novel optimal ILC design strategy that all...
Although iterative learning control (ILC) algorithms enable performance improvement for batch repeti...
Iterative learning control (ILC) is a high-performance control design method for systems operating i...
Iterative Learning Control (ILC) can significantly enhance the performance of systems that perform r...
In the past Iterative Learning Control has been shown to be a method that can easily achieve extreme...
The area if Iterative Learning Control (ILC) has great potential for applications to systems with a ...
Iterative learning control (ILC) enables high tracking performance of batch repetitive processes. Co...
This article surveyed the major results in iterative learning control (ILC) analysis and design over...
In this paper, a simple and effective multirate iterative learning control (ILC), referred as pseudo...
Iterative learning control (ILC) is a control design method that can improve the tracking performanc...
An optimal iterative learning control (ILC) is proposed to optimize an accumulative quadratic perfor...
Many schemes of iterative learning control (ILC) have been developed for continuous-time, non-linear...
An optimal iterative learning control (ILC) is proposed to optimize an accumulative quadratic perfor...
For linear discrete-time systems with randomly variable input trail length, a proportional- (P-) typ...
Iterative learning control (ILC) is a control design method for high-performance trajectory tracking...
In this paper, a multirate cyclic pseudo-downsampled iterative learning control (ILC) scheme is prop...
Although iterative learning control (ILC) algorithms enable performance improvement for batch repeti...
Iterative learning control (ILC) is a high-performance control design method for systems operating i...
Iterative Learning Control (ILC) can significantly enhance the performance of systems that perform r...
In the past Iterative Learning Control has been shown to be a method that can easily achieve extreme...
The area if Iterative Learning Control (ILC) has great potential for applications to systems with a ...
Iterative learning control (ILC) enables high tracking performance of batch repetitive processes. Co...
This article surveyed the major results in iterative learning control (ILC) analysis and design over...
In this paper, a simple and effective multirate iterative learning control (ILC), referred as pseudo...
Iterative learning control (ILC) is a control design method that can improve the tracking performanc...
An optimal iterative learning control (ILC) is proposed to optimize an accumulative quadratic perfor...
Many schemes of iterative learning control (ILC) have been developed for continuous-time, non-linear...
An optimal iterative learning control (ILC) is proposed to optimize an accumulative quadratic perfor...
For linear discrete-time systems with randomly variable input trail length, a proportional- (P-) typ...
Iterative learning control (ILC) is a control design method for high-performance trajectory tracking...
In this paper, a multirate cyclic pseudo-downsampled iterative learning control (ILC) scheme is prop...
Although iterative learning control (ILC) algorithms enable performance improvement for batch repeti...
Iterative learning control (ILC) is a high-performance control design method for systems operating i...
Iterative Learning Control (ILC) can significantly enhance the performance of systems that perform r...