Add to ORKGPre-printIn this paper, we present a “smart” high-peak power microwave tube, by implementing iterative learning control methodologies to control a repetitively-pulsed, high-power, backward wave oscillator. The learning control algorithm is used to drive the error between the actual output and its desired value to zero. The desired output may be a given power level, a given frequency, or a combination of both. The learning control methodology is then experimentally verified.The University of New Mexic
This paper proposes a new technique to identify the parameters of a digital predistorter based on it...
In linear particle accelerators used for free electron lasers, it is often required that the electro...
An experimental demonstration is given of (nonlinear) iterative learning control applied to a reticl...
Digital Object Identifier : 10.1109/27.700869In the paper, we present our progress toward designing...
Digital Object Identifier : 10.1109/PPC.1999.823649Previous accomplishments pertaining to the contr...
Digital Object Identifier : 10.1109/PLASMA.1998.677668Summary form only given, as follows. In our e...
Summary form only given, as follows. In our earlier works we reported on experimental results showin...
Previous accomplishments pertaining to the control of various parameters of an intense beam-driven r...
This paper presents an alternative way to produce flat-topped RF pulses at the pulse compressor outp...
This paper presents an experimental/theoretical study of methods to identify and control a repetitiv...
The goal of this paper is to introduce some identification and control rgstems concepts to the field...
Radio Frequency (RF) pulse compressors are used in linear accelerators (Linac) to achieve high power...
In the past Iterative Learning Control has been shown to be a method that can easily achieve extreme...
An experimental demonstration is given of (nonlinear) iterative learning control applied to a reticl...
This paper proposes a new technique to identify the parameters of a digital predistorter based on it...
This paper proposes a new technique to identify the parameters of a digital predistorter based on it...
In linear particle accelerators used for free electron lasers, it is often required that the electro...
An experimental demonstration is given of (nonlinear) iterative learning control applied to a reticl...
Digital Object Identifier : 10.1109/27.700869In the paper, we present our progress toward designing...
Digital Object Identifier : 10.1109/PPC.1999.823649Previous accomplishments pertaining to the contr...
Digital Object Identifier : 10.1109/PLASMA.1998.677668Summary form only given, as follows. In our e...
Summary form only given, as follows. In our earlier works we reported on experimental results showin...
Previous accomplishments pertaining to the control of various parameters of an intense beam-driven r...
This paper presents an alternative way to produce flat-topped RF pulses at the pulse compressor outp...
This paper presents an experimental/theoretical study of methods to identify and control a repetitiv...
The goal of this paper is to introduce some identification and control rgstems concepts to the field...
Radio Frequency (RF) pulse compressors are used in linear accelerators (Linac) to achieve high power...
In the past Iterative Learning Control has been shown to be a method that can easily achieve extreme...
An experimental demonstration is given of (nonlinear) iterative learning control applied to a reticl...
This paper proposes a new technique to identify the parameters of a digital predistorter based on it...
This paper proposes a new technique to identify the parameters of a digital predistorter based on it...
In linear particle accelerators used for free electron lasers, it is often required that the electro...
An experimental demonstration is given of (nonlinear) iterative learning control applied to a reticl...