This paper presents an H1-based design technique for the synthesis of higher-order iterative learning controllers (ILCs) for plants subject to iteration-domain input/output disturbances and plant model uncertainty. Formulating the higher-order ILC problem into a high-dimensional multivariable discrete-time system framework, it is shown how the addition of input/output disturbances and plant model uncertainty to the ILC problem can be cast as an H1-norm minimization problem. The distinctive feature of this formulation is to consider the uncertainty as arising in the iteration domain rather than the time domain. An algebraic approach to solving the problem in this framework is presented, resulting in a sub-optimal controller that can achieve ...
Iterative Learning Control (ILC) can significantly improve the performance of systems that perform r...
Iterative control has been widely studied in recent years as an efficient methodology for the design...
In the past Iterative Learning Control has been shown to be a method that can easily achieve extreme...
Iterative Learning Control (ILC) is a powerful control conceptthat iteratively improves the transien...
A robust Iterative Learning Control (ILC) design that uses state feedback and output injection for l...
Repetitive processes are widespread in our world. Through repetition performance can be improved. A ...
Abstract: In Iterative Learning Control design, convergence speed along the iteration domain is one ...
© 2015 American Automatic Control Council. This paper discusses robust iterative learning control (I...
This paper presents an approach to deal with model uncertainty in iterative learning control (ILC). ...
In this paper, we present a novel robust Iterative Learning Control (ILC) control strategy that is r...
In this paper, we present a novel iterative learning control (ILC) strategy that is robust against m...
Iterative Learning Control (ILC) enables high control performance through learning from measured dat...
Iterative Learning Control (ILC) can significantly improve the performance of systems that perform r...
Iterative control has been widely studied in recent years as an efficient methodology for the design...
In the past Iterative Learning Control has been shown to be a method that can easily achieve extreme...
Iterative Learning Control (ILC) is a powerful control conceptthat iteratively improves the transien...
A robust Iterative Learning Control (ILC) design that uses state feedback and output injection for l...
Repetitive processes are widespread in our world. Through repetition performance can be improved. A ...
Abstract: In Iterative Learning Control design, convergence speed along the iteration domain is one ...
© 2015 American Automatic Control Council. This paper discusses robust iterative learning control (I...
This paper presents an approach to deal with model uncertainty in iterative learning control (ILC). ...
In this paper, we present a novel robust Iterative Learning Control (ILC) control strategy that is r...
In this paper, we present a novel iterative learning control (ILC) strategy that is robust against m...
Iterative Learning Control (ILC) enables high control performance through learning from measured dat...
Iterative Learning Control (ILC) can significantly improve the performance of systems that perform r...
Iterative control has been widely studied in recent years as an efficient methodology for the design...
In the past Iterative Learning Control has been shown to be a method that can easily achieve extreme...