| 基于混合有限元格式的完美匹配层与多次透射公式人工边界比较研究 |
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| 引用本文: | 李宁,谢礼立,翟长海.基于混合有限元格式的完美匹配层与多次透射公式人工边界比较研究[J].地震学报,2007,29(6):643-653. |
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| 作者姓名: | 李宁 谢礼立 翟长海 |
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| 作者单位: | 1) 中国哈尔滨150090 哈尔滨工业大学土木工程学院2) 中国哈尔滨150080中国地震局工程力学研究所 |
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| 摘 要: | 介绍了完美匹配层(PML)人工边界可以吸收不同频率和任意角度入射波的原理以及PML人工边界的构造方法. 在此基础上,将PML人工边界应用于地震波动数值模拟的速度应力混合有限元格式中,探讨了PML应用的可行性,并通过数值试验研究了PML人工边界的反射率,比较了PML人工边界与多次透射公式(MTF)人工边界应用于体波和面波模拟中数值反射的差异,对两种边界的透射效果进行了分析. 结果表明, 尽管数值离散后PML人工边界不再保持完美匹配特性,但PML人工边界在近场波动数值模拟中可获得比MTF人工边界更为理想的吸收效果,在角点透射、大角度掠射情形下尤为明显;PML人工边界在混合有限元格式的数值算法中,未见失稳等不良反应,比MTF人工边界有更好的稳定性;在合理选择参数的情况下,PML人工边界的运算量可接受.
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| 关 键 词: | 完美匹配层 多次透射公式 弹性波 人工边界 混合有限元 |
| 文章编号: | 0253-3782(2007)06-0643-11 |
| 修稿时间: | 2007年1月18日 |
COMPARISON OF PERFECTLY MATCHED LAYER AND MULTI-TRANSMITTING FORMULAR ARTIFICIAL BOUNDARY CONDITIONS BASED ON HYBRID FINITE ELEMENT FORMULATION |
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| Li Ning,Xie Lili,Zhai Changhai.COMPARISON OF PERFECTLY MATCHED LAYER AND MULTI-TRANSMITTING FORMULAR ARTIFICIAL BOUNDARY CONDITIONS BASED ON HYBRID FINITE ELEMENT FORMULATION[J].Acta Seismologica Sinica,2007,29(6):643-653. |
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| Authors: | Li Ning Xie Lili Zhai Changhai |
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| Abstract: | The theory of perfectly matched layer (PML) artificial boundary condition (ABC), which is characterized by absorption any wave motions with arbitrary frequency and arbitrarily incident angle, is introduced. The construction process of PML boundary based on elastodynamic partial differential equation (PDE) system is developed. Combining with velocity-stress hybrid finite element formulation, the applicability of PML boundary is investigated and the numerical reflection of PML boundary is estimated. The reflectivity of PML and multi-transmitting formula (MTF) boundary is then compared based on body wave and surface wave simulations. The results show that although PML boundary yields some reflection, its absorption performance is superior to MTF boundary in the numerical simulations of near-fault wave propagation, especially in corner and large angle grazing incidence situations. The PML boundary does not arise any unstable phenomenon and the stability of PML boundary is better than MTF boundary in hybrid finite element method. For a specified problem and analysis tolerance, the computational efficiency of PML boundary is only a little lower than MTF boundary. |
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| Keywords: | perfectly matched layer multi-transmitting formula elastodynamic wave artificial boundary hybrid finite element |
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