The PML and MTF method based on hybrid finite element method: a comparative study
Perfectly Matched Layer (PML) artificial boundary condition (ABC) gains amount of recognitions because of perfectly performance in the physical wave motion simulations. This paper focuses on the usage of PML method in near-fault earthquake simulations. Combining with velocity-stress hybrid finite element formulation, the applicability of PML is investigated and the numerical reflection of PML is estimated. The reflectivity of PML and multi-transmitting formula (MTF) is compared based on body wave and surface wave simulations. The results show that although PML yields some reflection errors, its absorption performance is superior to MTF boundary in the seismogram simulations, especially in corner and large angle grazing incidence situations. The PML does not arise any unstable phenomenon. The stability of PML is better than MTF boundary in hybrid finite element method. For a specified problem and analysis tolerance, the computational efficiency of PML is only a little lower than MTF.
Perfectly Matched Layer Multi-Transmitting Formula elastic-dynamic FEM artificial boundary condition velocity-stress formulation
N. Li C.H. Zhai L.L. Xie
School of Civil Engineering, Harbin Institute of Technology, Harbin. China Institute of Engineering Mechanics, Harbin. China
国际会议
14th World Conference on Earthquake Engineering(第十四届国际地震工程会议)
北京
英文
2008-10-12(万方平台首次上网日期,不代表论文的发表时间)