This study uses a differential evolution method to identify the coefficients of second-order differential equations of self-excited vibrations from a time signal. The motivation is found in the frequent occurrence of this vibration type in physics and engineering. In the proposed method, an equation structure is assumed at the level of the differential equation and a population of candidate coefficient vectors undergo evolutionary training. In this way the numerical constants of non-linear terms of various self-excited vibration types were recovered, requiring only the original signal. The method is validated by comparison with regression of the analytical solution of a linear vibration. Comparisons are given regarding accuracy and computat...
Abstract:- Dynamical response in closed form is always a major goal when one wants to analyze the be...
Data-driven system identification procedures have recently enabled the reconstruction of governing d...
Time recordings of impulse-type oscillation responses are short and highly transient. These characte...
This study uses differential evolution to identify the coefficients of second-order differential equ...
AbstractThis study uses differential evolution to identify the coeffic ients of second-order differe...
Online monitoring of modal and physical parameters which change due to damage progression and aging ...
Commonly applied theories of self-excited vibrations in machine tools are prevailingly based on freq...
In the present paper, a Differential Evolution algorithm is used to perform a structural identificat...
In this study, four widely accepted and used variants of Evolution Strategies (ES) are adapted and a...
In the present article, differential evolution algorithm is used to perform structural identificatio...
The objective of the paper is to explain a modern Hilbert transform method for analysis and identifi...
In the present article, a new surrogate-assisted evolutionary algorithm for dynamic identification p...
In the present article, a new surrogate-assisted evolutionary algorithm for dynamic identification p...
The problem of identifying parameters of time invariant linear dynamical systems with fractional d...
Nonlinear phenomena are widely encountered in practical applications. The presence of nonlinearity m...
Abstract:- Dynamical response in closed form is always a major goal when one wants to analyze the be...
Data-driven system identification procedures have recently enabled the reconstruction of governing d...
Time recordings of impulse-type oscillation responses are short and highly transient. These characte...
This study uses differential evolution to identify the coefficients of second-order differential equ...
AbstractThis study uses differential evolution to identify the coeffic ients of second-order differe...
Online monitoring of modal and physical parameters which change due to damage progression and aging ...
Commonly applied theories of self-excited vibrations in machine tools are prevailingly based on freq...
In the present paper, a Differential Evolution algorithm is used to perform a structural identificat...
In this study, four widely accepted and used variants of Evolution Strategies (ES) are adapted and a...
In the present article, differential evolution algorithm is used to perform structural identificatio...
The objective of the paper is to explain a modern Hilbert transform method for analysis and identifi...
In the present article, a new surrogate-assisted evolutionary algorithm for dynamic identification p...
In the present article, a new surrogate-assisted evolutionary algorithm for dynamic identification p...
The problem of identifying parameters of time invariant linear dynamical systems with fractional d...
Nonlinear phenomena are widely encountered in practical applications. The presence of nonlinearity m...
Abstract:- Dynamical response in closed form is always a major goal when one wants to analyze the be...
Data-driven system identification procedures have recently enabled the reconstruction of governing d...
Time recordings of impulse-type oscillation responses are short and highly transient. These characte...