Response of Gaussian color noise excited oscillators with inertia nonlinearity based on the radial basis function neural network method

被引:0
作者
Ge, Gen [1 ]
Hu, Yongqi [2 ]
机构
[1] Tiangong Univ, Sch Aeronaut & Astronaut, Tianjin 300387, Peoples R China
[2] Tiangong Univ, Sch Mech Engn, Tianjin 300387, Peoples R China
关键词
Radial basis function neural network; Inertia nonlinearity; Gaussian colored noise; NUMERICAL-SOLUTION;
D O I
10.1016/j.ijnonlinmec.2024.104731
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
Given the widespread utilization of oscillators featuring inertial nonlinear terms across engineering disciplines and the omnipresence of noise excitations, comprehending their response to noise excitation holds paramount importance. In contrast to Gaussian white noise, colored noise stands out as a more adept mathematical model for simulating ambient noise scenarios. The widely used stochastic averaging method is somewhat ineffective in dealing with the response of oscillators with inertial nonlinearity under Gaussian colored noise excitation, as it cannot display the saddle shaped characteristics of the steady-state probability density function (PDF) caused by inertial nonlinearity. To overcome the shortcomings, this paper adopts a semi-analytical method called a radial basis function neural network method (RBFNN) to address this problem. This method represents the solution of the Fokker-Plank-Kolmogorov (FPK) equation of the system as the sum of a series of weighted radial basis functions, and obtains the optimal weight coefficients through the Lagrange multiplier method. This article investigates two examples, one of which has inertial nonlinearity and the other has multiple potential wells. The effects of inertial nonlinearity coefficients and the delay coefficients of colored noise on response are explored. The mean square errors between Monte Carlo (MC) and RBF are presented, which indicates the RBF results perfectly agree with the MC predictions.
引用
收藏
页数:11
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