Probability density functions for non-linear random waves and responses

An oscillator with a non-linear restoring force and a small linear damping under wide-band random excitation is considered. A modified Van Der Pol transformation with a suitable amplitude dependent frequency, is used to transform the original system into a first order vector system to which the stoc

## Abstract The probability density evolution method (PDEM) for dynamic responses analysis of non‐linear stochastic structures is proposed. In the method, the dynamic response of non‐linear stochastic structures is firstly expressed in a formal solution, which is a function of the random parameters

We have attempted to express the frequency response functions of a linear and a quadratic non-linear system in terms of spectral vectors. These vector notations convey the system characteristics in physically realisable measures. One of the valuable tools to verify the non-linear system features is

It is well-known that full information on the statistical properties of state variables can be derived by finding the multivariate joint probability density function. From this point of view, a new theoretical expression for the multivariate joint probability density function of an output response i

A new weighted orthogonal least squares algorithm is derived to estimate linear and non-linear continuous time differential equation models from complex frequency response data. The algorithm combines the properties and advantages of both weighted and orthogonal least squares algorithms. A weighted