A Numerical Method for Frequency Determination in the Astable Cellular Neural Networks With Opposite-Sign Templates
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Date
2006
Authors
Özmen, A.
Tander, B.
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Yes
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Abstract
In this study, a numerical method is proposed to determine the oscillation frequencies in the astable cellular neural networks with opposite-sign templates [1]. This method depends on the training of a multilayer perceptron that uses various template coefficients and the correspondant frequency values as inputs and outputs. First of all, a frequency surface is obtained from templates and then, training samples are picked from this surface in order to apply to multilayer perceptron. The effects of the template coefficients to the oscillation frequencies are also investigated. Furthermore, an oscillator design is carried out for simulation and the performance as well as the advantages of the proposed method are evaluated. © 2006 IEEE.
Description
2006 IEEE 14th Signal Processing and Communications Applications --17 April 2006 through 19 April 2006 --Antalya --69461
Keywords
Oscillation frequencies, Template coefficients, Cellular neural networks, Computer simulation, Frequency estimation, Multilayer neural networks, Numerical methods, N/A, Multilayer neural networks, Template coefficients, Cellular neural networks, Frequency estimation, Numerical methods, Computer simulation, Oscillation frequencies
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Fields of Science
0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
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2006 IEEE 14th Signal Processing and Communications Applications Conference
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2006
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1
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4
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