An approximate analytical technique is developed for determining, in closed form, the transition probability density function (PDF) of a general class of first-order stochastic differential equations (SDEs) with nonlinearities both in the drift and in the diffusion coefficients. Specifically, first, resorting to the Wiener path integral most probable path approximation and utilizing the Cauchy–Schwarz inequality yields a closed-form expression for the system response PDF, at practically zero computational cost. Next, the accuracy of this approximation is enhanced by proposing a more general PDF form with additional parameters to be determined. This is done by relying on the associated Fokker–Planck operator to formulate and solve an error m...
© 2019, Springer Nature B.V. An approximate analytical technique is developed for determining the no...
In this paper, the stochastic Wiener Hermite expansion (WHE) is used to find the statistical measure...
Dynamic response analysis of non-linear structures involving random parameters has been an important...
The response of a dynamical system modelled by differential equations with white noise as the forcin...
In this paper, an approximate analytical technique is developed for determining the non-stationary r...
A new method is presented for approximating the stationary probability density function of the respo...
A new method is presented for approximating the stationary probability density function of the respo...
The nonstationary random response of a class of lightly damped nonlinear oscillators subjected to Ga...
A Galerkin scheme-based approach is developed for determining the survival probability and first-pas...
The probability density function for transient response of non-linear stochastic system is investiga...
A novel method of analysis for nonlinear stochastic dynamical systems under Gaussian white noise exc...
First examined is the problem of obtaining the nonstationary stochastic response of a nonlinear syst...
First-passage probabilities are investigated for the absolute value of the zero-start response of si...
Many stochastic differential equations (SDEs) do not have readily available closed-form expressions ...
In this paper a novel approximate analytical technique for determining the non-stationary response p...
© 2019, Springer Nature B.V. An approximate analytical technique is developed for determining the no...
In this paper, the stochastic Wiener Hermite expansion (WHE) is used to find the statistical measure...
Dynamic response analysis of non-linear structures involving random parameters has been an important...
The response of a dynamical system modelled by differential equations with white noise as the forcin...
In this paper, an approximate analytical technique is developed for determining the non-stationary r...
A new method is presented for approximating the stationary probability density function of the respo...
A new method is presented for approximating the stationary probability density function of the respo...
The nonstationary random response of a class of lightly damped nonlinear oscillators subjected to Ga...
A Galerkin scheme-based approach is developed for determining the survival probability and first-pas...
The probability density function for transient response of non-linear stochastic system is investiga...
A novel method of analysis for nonlinear stochastic dynamical systems under Gaussian white noise exc...
First examined is the problem of obtaining the nonstationary stochastic response of a nonlinear syst...
First-passage probabilities are investigated for the absolute value of the zero-start response of si...
Many stochastic differential equations (SDEs) do not have readily available closed-form expressions ...
In this paper a novel approximate analytical technique for determining the non-stationary response p...
© 2019, Springer Nature B.V. An approximate analytical technique is developed for determining the no...
In this paper, the stochastic Wiener Hermite expansion (WHE) is used to find the statistical measure...
Dynamic response analysis of non-linear structures involving random parameters has been an important...