Numerical studies of dynamic stability under small random parametric excitations

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Authors

  • Roman V. Bobryk Institute of Mathematics, Jan Kochanowski University, Poland
  • Andrzej Chrzeszczyk Institute of Mathematics, Jan Kochanowski University, Poland

Abstract

An efficient numerical procedure is proposed to obtain mean-square stability regions for both single-degree-of-freedom and two-degree-of-freedom linear systems under parametric bounded noise excitation. This procedure reduces the stability problem to a matrix eigenvalue problem. Using this approach, ranges of applicability to the well-known stochastic averaging method are discussed. Numerical results show that the small parameter size in the stochastic averaging method can have a significant effect on the stability regions. The influence of noise on the shape of simple and combination parametric resonances is studied.

Keywords:

random vibration, stochastic averaging, mean square stability, bounded noise