The goal of this paper is to introduce some identification and control rgstems concepts to the field of high power microwave (HPM) tubes. These concepts are well known to the control systems community, but have not yet been fully exploited within the HPM community. The simpler mathematical approach used is contrasted with the more physical modeling, using first principles and advocated by experimental results. The paper also reports on a preliminary application of these ideas to the Sinus-6 electron beam accelerator. We present simulation rlesults which show that a simple nonlinear model using static neural networks is suf-ficient to accurately model the input/output behavior of the Sinus-6 driven Backward wave oscillator (BWO)
Nonlinear microwave device modeling is an important part of computer-aided design (CAD) and many pap...
Pages 689-692In this paper an approach to behavioral modeling of microwave oscillators is described....
An overview of neural network-based modeling techniques and their applications in microwave modeling...
Digital Object Identifier : 10.1109/PPC.1995.596800The goal of this paper is to introduce some iden...
Digital Object Identifier : 10.1109/27.533091This paper discusses an approach to model the input/ou...
This paper discusses an approach to model the input/output characteristics of the Sinus-6 electron b...
Digital Object Identifier : 10.1109/ACC.1997.612062This paper presents an experimental/theoretical ...
This paper presents an experimental/theoretical study of methods to identify and control a repetitiv...
Identification and control methods for high power electron beam-driven microwave tube
Digital Object Identifier : 10.1109/PPC.1999.823649Previous accomplishments pertaining to the contr...
Previous accomplishments pertaining to the control of various parameters of an intense beam-driven r...
Digital Object Identifier : 10.1109/27.700869In the paper, we present our progress toward designing...
Pre-printIn this paper, we present a “smart” high-peak power microwave tube, by implementing iterati...
Pages 689-692In this paper an approach to behavioral modeling of microwave oscillators is described....
A technology-independent, non-quasi-static non-linear model of electron devices capable of accurate ...
Nonlinear microwave device modeling is an important part of computer-aided design (CAD) and many pap...
Pages 689-692In this paper an approach to behavioral modeling of microwave oscillators is described....
An overview of neural network-based modeling techniques and their applications in microwave modeling...
Digital Object Identifier : 10.1109/PPC.1995.596800The goal of this paper is to introduce some iden...
Digital Object Identifier : 10.1109/27.533091This paper discusses an approach to model the input/ou...
This paper discusses an approach to model the input/output characteristics of the Sinus-6 electron b...
Digital Object Identifier : 10.1109/ACC.1997.612062This paper presents an experimental/theoretical ...
This paper presents an experimental/theoretical study of methods to identify and control a repetitiv...
Identification and control methods for high power electron beam-driven microwave tube
Digital Object Identifier : 10.1109/PPC.1999.823649Previous accomplishments pertaining to the contr...
Previous accomplishments pertaining to the control of various parameters of an intense beam-driven r...
Digital Object Identifier : 10.1109/27.700869In the paper, we present our progress toward designing...
Pre-printIn this paper, we present a “smart” high-peak power microwave tube, by implementing iterati...
Pages 689-692In this paper an approach to behavioral modeling of microwave oscillators is described....
A technology-independent, non-quasi-static non-linear model of electron devices capable of accurate ...
Nonlinear microwave device modeling is an important part of computer-aided design (CAD) and many pap...
Pages 689-692In this paper an approach to behavioral modeling of microwave oscillators is described....
An overview of neural network-based modeling techniques and their applications in microwave modeling...
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