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结合DTOA和DOA联合定位估计性好与牛顿迭代法收敛速度快的优点,提出了一种基于DTOA和DOA初值选取和牛顿法精确迭代的震源定位方法.经过野外实验和仿真,发现该方法能有效地提高震源定位的准确性.通过对影响震源定位精度因素分析,表明减小传感器基站站盐和初至波到时差测量误差可有效提高定位精度,相同同条件下,星型布站的定位精度最高. 相似文献
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A seismic shaking‐table test performed on a one‐storey steel frame with an 8 ton RC floor slab was reproduced on a similar specimen by means of the pseudo‐dynamic (PsD) method. A satisfactory agreement of the results could only be achieved after recalibration of the theoretical mass in the PsD equation and proper inclusion in the PsD test input of the horizontal and pitching accelerations measured on the table. In the shaking‐table test, the spurious pitching motion produced a significant increase in the apparent damping that could be estimated as a function of the pitching dynamic flexibility of the system. Dynamic and PsD snap‐back tests were also performed to provide an additional check of the reliability of the PsD method. The spurious pitching motion of the shaking table should always be measured during the tests and reported as a mean to increase the reliability and usefulness of the results. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
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提出了一种带纵摇前墙的新型振荡水柱式波浪能(OWC)装置,借助Open FOAM开源代码平台和waves2Foam工具包,数值模拟研究带纵摇前墙OWC装置的水动力性能和转换效率。主要研究前墙吃水d_1、前墙密度ρ、后墙吃水d_2、旋转约束力(用无量纲弹簧系数K表示)对该装置的反射系数C_r、透射系数C_t、耗散系数C_d和波能转换效率ξ的影响规律。结果表明,纵摇前墙能有效减少能量耗散,提高波能转换效率ξ;无量纲弹簧系数K对装置转换效率的影响主要集中在短波区域,且在K为0时装置具有最大的转换效率和最宽的高效频率带;前墙的密度和吃水深度对水动力系数影响不大;后墙的吃水深度对水动力系数影响较大,增加吃水深度能有效提高装置对于中短波和中长波段的波能转换效率,但对系统整体的能量耗散系数影响不大。 相似文献
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