A fast frequency domain boundary element method for transient elastodynamic analysis

The conventional frequency-domain boundary element method (BEM) based on discrete Fourier transform is difficult to complete transient analysis of low damped and undamped systems. To solve this problem, the exponential window method is combined with the frequency-domain BEM, and the precorrected fast Fourier transform (pFFT) is used to accelerate the frequency-domain BEM analysis. For solving the sequence of linear systems corresponding to the sampling frequencies with higher efficiency, an extrapolation method is proposed to obtain good initial guesses. In addition, a newly developed Krylov subspace recycling method is employed to solve this sequence of linear systems. Numerical examples demonstrate a dramatic reduction of iterations, which leads to higher efficiency and smaller memory consuming.