| description abstract | We present a cellbased smoothed radial point interpolation method (CSRPIM) model for twodimensional acoustic radiating problem by incorporating the perfectly matched layer method (PML). In this work, the computational region, truncated by PML, is discretized into triangular background cells. Each cell is further divided into several smoothing cells, and then the cellbased gradient smoothing operation is implemented throughout the smoothing cells. The pressure field function is approximated using the RPIM shape functions. The supporting node selection for shape function construction uses the T2Lscheme associated with edges of the background cells. The cellbased gradient smoothing operation provides proper softening effect, and makes the acoustic stiffness of the CSRPIM model much softer than that of the FEM (finite element method)/PML model, which in turn significantly reduces the numerical dispersion error. Numerical results show that, compared with FEM–PML, the CSRPIM achieves better absorbing effect in the PML, and higher accuracy in the computational region. This enables us to conclude that the CSRPIM model with the PML can be well applied in solving acoustic radiation problems. | |
