共查询到19条相似文献,搜索用时 171 毫秒
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分析了地震加速度时程模拟的常规方法,指出初始加速度时程的选取十分重要,对常规方法构造初始加速度时程的方法作了改进,并建议直接使用真实地震加速度时程记录作国初始时程,计算结果表明,这些改进可以得到更为理想的结果。 相似文献
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将地震加速度信号积分为速度、位移时程,或使用其进行地震响应分析时通常假定初始速度、位移为零,不满足这一假定被称为初始条件不相容。针对人为截断后的加速度信号由于初始条件不相容造成的速度和位移时程的基线偏移的问题,提出了一种简单有效的基线校正方法。从理论上解释了初始条件不相容导致基线偏移的原因。从整体偏移和局部偏移的角度定义了评价基线偏移程度的两个指标,即基线偏移比(DR)和幅值比(AR)。通过在趋势多项式中考虑速度和位移时程的零初值及其基线偏移趋势,改进了加速度信号基线校正方法。以一个地震地面运动记录为例,对所提方法进行了验证。结果表明:相比传统的仅考虑加速度时程的基线校正方法,改进方法能够在保证速度和位移时程的地面运动一般初值条件的前提下,更加准确高效地实现加速度信号的基线校正。 相似文献
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考虑地震环境的人造地震动合成方法 总被引:9,自引:0,他引:9
本文将经验格林函数法和人造地震动反应谱拟合技术有机地结合起来,提出了一种新的人造地震动方法。利用已有的场地附近的小震记录合成可能发生的大震地面运动,以此作为人造地震动的初始值,通过反复调整初始加速度的傅氏幅值谱来拟合给定的目标反应谱,以得到满足精度要求的人造地震加速度时程。本文方法可以考虑地震环境和局部场地对地震动的影响。所合成的地震加速度时程具有时间强度和频率含量的非平稳特征,并且不需要人为规定强度包线。 相似文献
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根据灰色系统的一阶灾变模型,对台湾海峡7.3级地震的ML≥5.0级余震进行了预测,给出了未来可能的发震时间;根据汕头市国际大酒店地下室记录的这次地震的地面加速度时程,反演计算得到了基岩加速度时程,据此进行了地震反应分析,并对地基震害作了分区。 相似文献
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2017年8月8日发生的九寨沟MS 7.0地震,是中国近10年来发生的强震之一,造成了大量建筑破坏、人员伤亡和经济损失,强震台网记录到的最大峰值加速度为0.19g。本文采用Wang等(2015) 提出的改进有限断层法模拟了这次地震中部分台站的加速度时程。首先,选取合适的震源模型和输入参数,通过对比模拟结果和地震记录,估计这次地震的应力降大约为4.0MPa,与王宏伟等(2017)的分析结果基本一致。与EXSIM(Motazedian等,2005)方法相比,Wang等(2015) 的方法得到的结果在频域上与实际地震记录更相符。同时,合成了强震台站以及断层附近网格点的加速度时程,模拟结果的时程和反应谱与实际记录整体上较为符合,震中附近的PGA分布与震中烈度区基本一致,验证了本文结果的有效性。本文合成的地震动可以为该地区的灾后抗震设计提供一定依据。 相似文献
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以1997年4月11日新疆伽师地震(Mw6.1)为例,详细介绍了近断层强地震动场的预测方法.首先,用有限断层震源建模方法建立了该次地震的震源模型;然后,基于动力学拐角频率的地震动随机模拟方法,模拟了该次地震仅有主震加速度记录、且位于巨厚土层上的三个台站的加速度时程,并用实际地震记录进行了验证.在此基础上,基于预测的近断层77个节点的加速度时程的峰值绘制了该次地震的加速度场.结果表明,上述方法模拟的加速度时程在0.5 Hz以上的高频段是可行的、实用的;预测的近断层加速度场具有非常明显的上盘效应.地表最大加速度的范围与断层面上最大凹凸体位置相对应,说明与断层面上凹凸体相对应的地面上的建(构)筑物将会遭受到较为严重的震害. 相似文献
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1976年唐山地震近、远场加速度的半经验合成 总被引:3,自引:0,他引:3
本文建立一非均匀唐山地震断层模型,它由北东30的南段和北东50的北段两个大的走滑断层组成,总长114 km、总地震矩为1.41020 Nm;而每一走滑断层又分别由长为37 km和20 km的两个子断层组成.震中定在南段和靠近南、北两段走滑断层的交汇处.用ML5.7、MS6.9的余震记录作经验格林函数,用考虑大小地震不相似的改进的经验格林函数法分别合成唐山地震主震(MS7.8)的近、远场加速度时程.远场合成加速度时程的峰值、持时、反应谱与真实记录符合较好;近场合成结果与唐山地震烈度分布符合较好.合成的唐山地震的近场最大加速度峰值达1.1 g,这与近年发生的一些大震中记录到的近场最大加速度峰值接近. 相似文献
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通过梳理轨道交通地下结构抗震设计流程,明确抗震设计方法选择的原则和依据。在阐明反应加速度法基本原理基础上,引出土层地震反应分析的一维等效线性化法,并对影响土层地震反应计算结果关键参数进行讨论。针对一维土层地震反应得到的加速度时程提出合理拟合抛物线型二阶基线方程,可以消除加速度时程长周期随机分量引起的漂移问题,经自然积分可以得到消除基线漂移的位移时程;同时阐明数值分析软件Origin Pro有效解决积分得到位移时程的基线漂移问题并得到合理位移分布的途径和方法。以北京地铁3号线体育中心站为例,详细说明反应加速度法相关各个技术环节实现的方法和结果,并指出反应加速度法或位移法所依据的土层地震反应分析和位移时程的确定具有较强专业性,应做专项咨询分析工作;只有一维土层地震反应分析获得的加速度反应谱及时程客观合理,有限元计算所需相应地震动水平的等效剪切模量才可信;积分得到的位移时程需要有效消除基线漂移影响。只有上述相关结果真实客观可信,有限元计算结果才能模拟真实的土层-地下结构地震反应。 相似文献
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基于美国西部80条基岩上的近场强震记录, 采用Nakayama方法生成记录的渐进谱, 并参照Kameda方式,用统计方法建立了根据震级、距离等地震参数预测渐进谱的统计模型. 提出一种以渐进谱为目标谱的生成幅值和频率非平稳地震加速度时程的迭代方法. 由于考虑了渐进谱幅值和相位的相互影响,所生成的时程的相位也是时频非平稳的,并在相位调整中识别了相位谱增量符号以加速迭代收敛进程. 最后根据统计回归的目标渐进谱模型和本文提出的拟合目标渐进谱的方法,可生成不同震级、距离条件下的幅值和频率均非平稳的地震加速度时程. 相似文献
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In this article, the seismic records of Japan’s Kik-net are selected to measure the acceleration, displacement, and effective peak acceleration of each seismic record within a certain time after P wave, then a continuous estimation is given on earthquake early warning magnitude through statistical analysis method, and Wenchuan earthquake record is utilized to check the method. The results show that the reliability of earthquake early warning magnitude continuously increases with the increase of the seismic information, the biggest residual happens if the acceleration is adopted to fit earthquake magnitude, which may be caused by rich high-frequency components and large dispersion of peak value in acceleration record, the influence caused by the high-frequency components can be effectively reduced if the effective peak acceleration and peak displacement is adopted, it is estimated that the dispersion of earthquake magnitude obviously reduces, but it is easy for peak displacement to be affected by long-period drifting. In various components, the residual enlargement phenomenon at vertical direction is almost unobvious, thus it is recommended in this article that the effective peak acceleration at vertical direction is preferred to estimate earthquake early warning magnitude. Through adopting Wenchuan strong earthquake record to check the method mentioned in this article, it is found that this method can be used to quickly, stably, and accurately estimate the early warning magnitude of this earthquake, which shows that this method is completely applicable for earthquake early warning. 相似文献
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快速确定断层破裂特征是烈度速报的一项重要技术,断层破裂特征可为烈度速报提供震源模型,提升烈度速报准确性。通过汶川地震加速度记录,提出一种快速计算震源破裂参数的方法。 假定断层为线源模型,以一定间距将断层离散化为若干子源,以震中为不动点,通过旋转获得所有断层可能的走向,通过每次移动一个子源,获得断层所有可能的破裂方式,将二者结合即可给出断层所有可能的空间分布;计算每种断层空间分布与每个台站的断层距,利用加速度记录峰值和断层距统计回归衰减关系,分析每个衰减关系的拟合残差,残差最小拟合效果最好的衰减关系所对应断层参数,能够对该次地震的地震动场有最合理的解释,也最有可能是实际地震中的断层空间分布。 相似文献
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为了探索地震加速度时程记录的震级信息,训练卷积神经网络基于地震震级大小对地震记录进行分类,将K-NET和KiK-net中将近12万个地震记录作为样本,对其进行信息筛选和归一化,之后将地震加速度时程记录用作输入,训练卷积神经网络模型以M5.5为分类界限来区分大震和小震。结果显示,在训练集中基于该模型的分类准确率为93.6%,在测试集中的准确率为92.3%,具有良好的分类效果,这表明大震记录与小震记录之间存在一些根本的区别,即可通过地震动加速度时程记录获取一定的震级信息。 相似文献
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Artificial ground motion compatible with specified ground shaking peaks and target response spectrum 总被引:1,自引:0,他引:1
1 Introduction Time history analysis is usually needed not only for the seismic design of important structures, such as nuclear plants, large concrete dams and super high-rise buildings, but also for seismic performance based design. Performance-based design requires tha knowledge of the entire process of nonlinear seismic responses of structures be obtained, which depends on the ground motion time history as input for this analysis. However, because the observed strong-motion recordings are l… 相似文献
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Acceleration time histories of earthquake events are typically measured in seismic stations that are placed close to the soil top surface. These acceleration records are often used as input data for seismic analysis. It may be used for base excitation in seismic analysis of above ground structures with shallow foundations.. However it may not be used for seismic analysis of underground structures, or even for above ground buildings with deep foundations and several underground stories. The required base excitation data of the latter should have been measured below the top surface, at a level that may be determined according to the specific analyzed building geometry or at the bedrock below. If the acceleration time history at the bedrock would have been known, the seismic wave propagation through the soil medium, from the bedrock towards the top surface, could have been carried out and the base excitation of the buried structure could be determined. Since there is no data on the acceleration time history at the bedrock, and the only given data is the acceleration records at the top surface, the goal of this paper is to provide an exact reverse analysis procedure to determine the unknown acceleration time history at the bedrock that would exactly produce the measured acceleration time history at the top surface. Once this goal is achieved, seismic analysis of buried structures may be carried out with the determined acceleration record at the bedrock as input. This paper presents an analytical exact solution of the inverse problem for determination of the acceleration, velocity and displacement time histories at the bedrock base of a layered geological medium that are compatible with the given acceleration record at the soil top surface. This new proposed method is based on analytical solutions of the initial-boundary value problems of the linear wave equation in the case of a layered medium. The relationship between waves in one layer and waves in another adjacent layer is derived considering the continuity of stresses and displacements at the common interface between the layers. The efficiency and accuracy of the proposed method is demonstrated through several examples involving the nonstationary response of the free surface. The case of the San Fernando Earthquake is studied. Excellent agreement is achieved between the recorded free surface time history and the reconstructed signal. This excellent agreement is obtained due to the exact analytical method used in deriving the inverse problem solution. This exact analytical method allows one to obtain an acceleration (velocity/displacement) distribution along all the layers at any time. 相似文献
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关于强地震对结构的作用,应当考虑随时间变化的地面运动的全过程。 这个过程的统计特征是由震级、中间介质及地表土层的特性决定的。 因为现在已经有了从基岩运动推算地表运动的可靠方法,所以搞清基岩运动的特征并由此对基岩运动的过程作出估计,显得特别重要。 本文对美国27个基岩台上的强震记录的反应普以及几个最大值与震级和震源距离的关系进行了统计分析,找到它们的关系。从这些关系出发,对指定的震级和震源距离的基岩,可以估计它的运动特征,并人工造成一组运动过程。 相似文献
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There are several methods for analyzing the acceleration of an earthquake.In this research,a discrete wavelet theory based on the Mallat method was employed to analyze the acceleration of earthquake records.For this purpose,first,the acceleration of the main earthquake was determined using the method of banding,filtering and correction of a filtered wave.Then,the acceleration of the earthquake up to five stages was decomposed using discrete wavelet theory.In this method,in which the Down-Sampling rule is utilized in each step,the number of earthquake record points is half past.Each of the waveforms was based on the acceleration of the maximum original earthquake,and the maximum acceleration in all the waves was identical.For each of the five waves obtained from wavelet decomposition,the velocity curve and ground acceleration are obtained and compared with each other.Finally,a structure was analyzed using the main wave of the earthquake and each of the waveforms was analyzed in five stages and their dynamic response curves were compared.The results showed that until the third stage of the wavelet decomposition,the error was insignificant and the dynamic response to the magnitude of the earthquake was small.The analysis time is about 10% of the analysis time with the main wave,and the error is less than 6%. 相似文献