Add to ORKGA method of deriving calculation formulas and analytical estimates of the errors for them in the digital modeling of linear dynamic sections using a piecewise-polynomial approximation of the input signal is described. Using this method, transfer functions are obtained for several methods of approximation, and they are compared using the example of the modeling of an aperiodic section. The results obtained are presented in a table
In this paper we will demonstrate that most digital, analog as well as behavioral components can be ...
The purpose of this contribution is to point out and exploit the kinship between identification of l...
In this work, methods for on-line identification of discrete-time systems and for parameter tracking...
Of increasing interest is the investigation of the effects of parameter variations on the response o...
The paper presents a novel approach to approximation of a linear transfer function model, based on d...
One of the most difficult computer simulation problems is the simulation of dynamic systems which in...
This paper has demonstrated the need to use models not only at the stage of theoretical research and...
This paper presents an operational approach to the design of digital simulations of linear dynamic s...
This paper has demonstrated the need to use models not only at the stage of theoretical research and...
Motivated by a recently proposed error estimator for the transfer function of the reduced-order mode...
Experimental data for frequency response obtained from a linear dynamic system were processed to obt...
Linear dynamical models play an important role in many engineering fields, including simulation, ana...
In this paper comparatively simple method is presented for identifying linear and nonlin...
The paper presents the analysis of the absolute error of a digital sinewave generator with step line...
A prediction error estimation algorithm is derived for the estimation of complex number systems. The...
In this paper we will demonstrate that most digital, analog as well as behavioral components can be ...
The purpose of this contribution is to point out and exploit the kinship between identification of l...
In this work, methods for on-line identification of discrete-time systems and for parameter tracking...
Of increasing interest is the investigation of the effects of parameter variations on the response o...
The paper presents a novel approach to approximation of a linear transfer function model, based on d...
One of the most difficult computer simulation problems is the simulation of dynamic systems which in...
This paper has demonstrated the need to use models not only at the stage of theoretical research and...
This paper presents an operational approach to the design of digital simulations of linear dynamic s...
This paper has demonstrated the need to use models not only at the stage of theoretical research and...
Motivated by a recently proposed error estimator for the transfer function of the reduced-order mode...
Experimental data for frequency response obtained from a linear dynamic system were processed to obt...
Linear dynamical models play an important role in many engineering fields, including simulation, ana...
In this paper comparatively simple method is presented for identifying linear and nonlin...
The paper presents the analysis of the absolute error of a digital sinewave generator with step line...
A prediction error estimation algorithm is derived for the estimation of complex number systems. The...
In this paper we will demonstrate that most digital, analog as well as behavioral components can be ...
The purpose of this contribution is to point out and exploit the kinship between identification of l...
In this work, methods for on-line identification of discrete-time systems and for parameter tracking...