Add to ORKGThe problem of identifying parameters of time invariant linear dynamical systems with fractional derivative damping models, based on a spatially incomplete set of measured frequency response functions and experimentally determined eigensolutions, is considered. Methods based\ud on inverse sensitivity analysis of damped eigensolutions and frequency response functions are developed. It is shown that the eigensensitivity method requires the development of derivatives of solutions of an asymmetric generalized eigenvalue problem. Both the first and second order inverse sensitivity analyses are considered. The study demonstrates the successful performance of the identification algorithms developed based on synthetic data on one, two and a 33 de...
An energy-based method is proposed to identify damping parameters from time histories of responses ...
Based on the theory of fractional calculus and the spectral theory of vibration, a new spectrally-fo...
The research focuses on the modeling and the structural identification of linear damped structures. ...
In this paper vibrating continuous linear systems with generalized damping distributions defined acc...
Characterizations, control or analyses of dynamic systems often demand low order models in order to ...
An approximate method for determination of dynamic characteristics of structures with viscoelastic d...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
The problem of structural damage detection based on measured frequency response functions of the str...
Fractional derivative is increasingly being deployed to improve existing mathematical models due to ...
A study is carried out into the philosophy and performance of different approaches for the determina...
Identification of accurate mass, stiffness and damping characteristics of a dynamic system are neces...
In applications involving manufactured mechanical vibrating systems such as vehicle components and s...
In general, real objects are fractional-order systems and also dy- namical processes taking place in...
In order to analyze the dynamics of a structural problem accurately, a precise model of the structur...
In the present study non-integer order or fractional derivative rheological models are applied to th...
An energy-based method is proposed to identify damping parameters from time histories of responses ...
Based on the theory of fractional calculus and the spectral theory of vibration, a new spectrally-fo...
The research focuses on the modeling and the structural identification of linear damped structures. ...
In this paper vibrating continuous linear systems with generalized damping distributions defined acc...
Characterizations, control or analyses of dynamic systems often demand low order models in order to ...
An approximate method for determination of dynamic characteristics of structures with viscoelastic d...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
The problem of structural damage detection based on measured frequency response functions of the str...
Fractional derivative is increasingly being deployed to improve existing mathematical models due to ...
A study is carried out into the philosophy and performance of different approaches for the determina...
Identification of accurate mass, stiffness and damping characteristics of a dynamic system are neces...
In applications involving manufactured mechanical vibrating systems such as vehicle components and s...
In general, real objects are fractional-order systems and also dy- namical processes taking place in...
In order to analyze the dynamics of a structural problem accurately, a precise model of the structur...
In the present study non-integer order or fractional derivative rheological models are applied to th...
An energy-based method is proposed to identify damping parameters from time histories of responses ...
Based on the theory of fractional calculus and the spectral theory of vibration, a new spectrally-fo...
The research focuses on the modeling and the structural identification of linear damped structures. ...