Stability of elastic systems under a stochastic parametric excitation

Abstract

An efficient method to investigate the stability of elastic systems subjected to the parametric force in the form of a random stationary colored noise is suggested. The method is based on the simulation of stochastic processes, numerical solution of differential equations, describing the perturbed motion of the system, and the calculation of top Liapunov exponents. The method results in the estimation of the almost sure stability and the stability with respect to statistical moments of different orders. Since the closed system of equations for moments of desired quantities yj(t) cannot be obtained, the statistical data processing is applied. The estimation of moments \(\langle y_{j}^{p}\rangle\) at the instant tn is obtained by statistical average of \(\langle y_{j}^{p}\rangle\) derived from the solution of equations for the large number of realizations. This approach allows us to evaluate the influence of different characteristics of random stationary loads on top Liapunov exponents and on the stability of system. The important point is that results found for filtered processes, are principally different from those corresponding to stochastic processes in the form of Gaussian white noises.