A technique is developed to study random vibration of nonlinear systems. The method is based on the assumption that the joint probability density function of the response variables and input variables is Gaussian. It is shown that this method is more general than the statistical linearization technique in that it can handle non-Gaussian excitations and amplitude-limited responses. As an example a bilinear hysteretic system under white noise excitation is analyzed. The prediction of various response statistics by this technique is in good agreement with other available results
First examined is the problem of obtaining the nonstationary stochastic response of a nonlinear syst...
Dynamic behaviour of a beam, subjected to stationary random excitation, has been investigated for th...
This study of the stationary random vibration of single degree of freedom bilinear hysteretic oscill...
A technique is developed to study random vibration of nonlinear systems. The method is based on the ...
A method is presented for obtaining, approximately, the response covariance and probability distribu...
The analysis of the free and forced vibration of a randomly time-varying system is the subject matte...
A non-Gaussian closure approach is applied to random response of a hysteretic structure subjected to...
The Gaussian probability closure technique is applied to study the random response of multidegree of...
The Gaussian probability closure technique is applied to study the random response of multidegree of...
The Gaussian probability closure technique is applied to study the random response of multidegree of...
Abstract. The various techniques available for the analysis of nonlinear systems ubjected to random ...
Analytical and experimental investigations are made of the response of linear systems subject to mag...
The problem of non-linear systems excited by random forces with known power spectral density functio...
First examined is the problem of obtaining the nonstationary stochastic response of a nonlinear syst...
Nonlinear vibration systems with adjustable stiffness property have attracted considerable attention...
First examined is the problem of obtaining the nonstationary stochastic response of a nonlinear syst...
Dynamic behaviour of a beam, subjected to stationary random excitation, has been investigated for th...
This study of the stationary random vibration of single degree of freedom bilinear hysteretic oscill...
A technique is developed to study random vibration of nonlinear systems. The method is based on the ...
A method is presented for obtaining, approximately, the response covariance and probability distribu...
The analysis of the free and forced vibration of a randomly time-varying system is the subject matte...
A non-Gaussian closure approach is applied to random response of a hysteretic structure subjected to...
The Gaussian probability closure technique is applied to study the random response of multidegree of...
The Gaussian probability closure technique is applied to study the random response of multidegree of...
The Gaussian probability closure technique is applied to study the random response of multidegree of...
Abstract. The various techniques available for the analysis of nonlinear systems ubjected to random ...
Analytical and experimental investigations are made of the response of linear systems subject to mag...
The problem of non-linear systems excited by random forces with known power spectral density functio...
First examined is the problem of obtaining the nonstationary stochastic response of a nonlinear syst...
Nonlinear vibration systems with adjustable stiffness property have attracted considerable attention...
First examined is the problem of obtaining the nonstationary stochastic response of a nonlinear syst...
Dynamic behaviour of a beam, subjected to stationary random excitation, has been investigated for th...
This study of the stationary random vibration of single degree of freedom bilinear hysteretic oscill...