Results on modeling quadratic systems described by Volterra series up to order two are presented. Specifically, expressions for the linear and quadratic transfer functions and the system coherency are derived. It is shown that all the three quantities can be independently computed in the discrete frequency domain in terms of various spectral moment
The frequency domain methods tor linear systems are well accepted by engineers and have been widely ...
In this paper, we propose a new algorithm for constructing an integral model of a nonlinear dynamic ...
The analysis of the nonlinear signals or systems is insufficient using the power spectrum and autoco...
Results on modeling quadratic systems described by Volterra series up to order two are presented. Sp...
Without assuming particular statistics of the input, a practical digital method of estimating linear...
Abstract – The Volterra model for nonlinear systems has develloped an identity of its one. We concen...
We study the modeling of bilinear and quadratic systems from measured data. The measurements are giv...
Volterra and Wiener series are two classes of polynomial representations of nonlinear systems. They ...
The frequency domain methods tor linear systems are well accepted by engineers and have been widely ...
The output frequency response function (OFRF) of Volterra systems can be described as a polynomial f...
Traditional measurement of multimedia systems, e.g. linear impulse response and transfer function, a...
AbstractThe output frequency response function (OFRF) of Volterra systems can be described as a poly...
Correlation techniques for the identification of nonlinear systems are discussed in Chapter 1. The V...
A method for measuring first/second Volterra kernels in the frequency domain is given. For the case ...
We study quadratic functionals of the variables of a linear oscillatory system and their derivatives...
The frequency domain methods tor linear systems are well accepted by engineers and have been widely ...
In this paper, we propose a new algorithm for constructing an integral model of a nonlinear dynamic ...
The analysis of the nonlinear signals or systems is insufficient using the power spectrum and autoco...
Results on modeling quadratic systems described by Volterra series up to order two are presented. Sp...
Without assuming particular statistics of the input, a practical digital method of estimating linear...
Abstract – The Volterra model for nonlinear systems has develloped an identity of its one. We concen...
We study the modeling of bilinear and quadratic systems from measured data. The measurements are giv...
Volterra and Wiener series are two classes of polynomial representations of nonlinear systems. They ...
The frequency domain methods tor linear systems are well accepted by engineers and have been widely ...
The output frequency response function (OFRF) of Volterra systems can be described as a polynomial f...
Traditional measurement of multimedia systems, e.g. linear impulse response and transfer function, a...
AbstractThe output frequency response function (OFRF) of Volterra systems can be described as a poly...
Correlation techniques for the identification of nonlinear systems are discussed in Chapter 1. The V...
A method for measuring first/second Volterra kernels in the frequency domain is given. For the case ...
We study quadratic functionals of the variables of a linear oscillatory system and their derivatives...
The frequency domain methods tor linear systems are well accepted by engineers and have been widely ...
In this paper, we propose a new algorithm for constructing an integral model of a nonlinear dynamic ...
The analysis of the nonlinear signals or systems is insufficient using the power spectrum and autoco...