共查询到20条相似文献,搜索用时 125 毫秒
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《世界地震工程》2015,(4)
在输入激励信息未知、仅已知部分测试自由度的动力响应信息的条件下,基于广义复合反演算法,开展了结构损伤识别的研究。将衰减记忆滤波技术引入到扩展卡尔曼滤波算法,构建了衰减记忆扩展卡尔曼滤波算法以削弱滤波的发散现象。考虑了复合反演算法(须知各自由度的动力响应)和衰减记忆扩展卡尔曼滤波算法(须知输入信息)的局限性,借助子结构技术,建立了结构物理参数时域识别的广义复合反演算法。利用单元刚度变化率来判定损伤的程度和位置,建立了基于广义复合反演算法的结构损伤识别及地震动反演的三阶段法。以一个6层框架结构为例进行了结构损伤识别数值模拟研究。结果表明,在噪声存在的情况下,三阶段法能够准确确定损伤位置和损伤程度,且地震动反演时程与真实时程吻合较好,验证了三阶段法在结构损伤识别及地震动反演中的有效性。 相似文献
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《地震工程与工程振动》2017,(5)
结构损伤会引起结构振动信号的突变,而该突变信号会淹没于环境噪声信号中。为此,文章将复杂追踪理论(CP)引入结构损伤识别领域,将损伤识别问题转化为突变特征提取问题。提出一种复杂追踪结合集合经验模态分解(EEMD)识别结构损伤的新方法,首先采用EEMD预处理结构振动信号,接着将分解得到的本征模函数(IMF)作为混合信号输入CP模型中,提取出包含损伤特征的本征模函数,进而识别出结构损伤发生的时刻及位置。最后,通过对环境激励下六自由度质量-弹簧系统和地震激励下三层框架模型的数值分析。结果表明,该方法能够准确有效地识别结构损伤异常时刻与位置。 相似文献
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基于BP神经网络的空间索杆结构节点损伤识别研究 总被引:1,自引:0,他引:1
针对某实际空间索杆结构的节点损伤现象,采用BP神经网络与基于振动的损伤识别两步法对其进行了识别研究,即首先确定可能发生节点损伤的子区域,在此基础上利用对应子区域的子网络识别出具体的损伤位置和程度。识别过程中采用两个杆单元模拟发生节点损伤的杆件,用抗弯刚度降低的端部短杆单元模拟节点损伤。研究表明,虽然空间索杆结构的动力性能较为复杂,但基于结构固有频率和模态位移的组合指标对节点损伤仍较为敏感,利用它们进行节点损伤识别是有效的。 相似文献
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针对传统的广义卡尔曼滤波算法不能有效地追踪结构刚度的变化情况,本文以传统卡尔曼滤波理论为基础,得到了基于衰减记忆的广义卡尔曼滤波算法公式,利用该算法对所得到的地震响应信号进行分析,提取结构的特性,辨识结构的参数,并从中判断结构损伤发生的时刻、位置及程度,改善了广义卡尔曼滤波的效果。衰减记忆的广义卡尔曼滤波算法只能够判断出结构参数变化的时间并且容易出现振荡,因此采用了一种新的自适应追踪技术,用一个自适应因子矩阵代替了原有的遗忘因子,这种技术可以有效追踪结构参数变化的时间、位置和大小,从而能够在线识别出结构的损伤。 相似文献
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主动变刚度结构的动力卸载效应 总被引:3,自引:1,他引:3
本文讨论了主动变刚度结构体系AVS(Active Variable Stiffness)的动力卸载效应。结构体系中的AVS控制器关闭或开启瞬时,结构系统刚度分布发生突变,通常也伴随着对系统的能量输入或输出,使得该瞬时结构体系相应受到—加速度增量作用,此增量的方向与结构加速度方向相反,能有效地抑制结构体系的刚度不变层向刚度突变层的动力卸载。此外,文中分析了AVS控制器闭合或开启引起的结构体系相对于原结构的第i阶自振频率摄动,进而讨论了AVS控制器的开关控制律和结构的自振频率摄动及动力卸载效应的相互关系。理论分析和计算结果表明:在合理的结构变形位置闭合或开启AVS控制器,动力卸载效应对结构体系的不利作用及结构体系的频率特性相对于原结构改变很小。 相似文献
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《地震工程与工程振动》2017,(2)
针对标准粒子群优化算法易陷入局部最优及多粒子群协同优化算法(MPSCO)仍存在的不足,提出了一种改进的多粒子群协同优化算法,并将其与Newmark常平均加速度法、假设检验相结合,研发出一种适用于框架结构的损伤检测策略。首先,针对结构损伤前的实测加速度响应,运用改进MPSCO算法识别出结构损伤前的层间刚度值;第二,针对结构损伤后的实测加速度响应并运用同样的方法识别出结构损伤后的层间刚度值;第三,比较所识别出的结构损伤前后的层间刚度值并结合假设检验从而完成损伤检测。最后通过一7层钢框架的数值模型和实验室试验验证了本文所提损伤检测策略的可靠性。研究结果表明,本文所提的损伤检测策略能够精确地识别结构损伤同时具有较好的抗噪性能和鲁棒性。 相似文献
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近年来,能量分析方法在结构抗震设计中的应用问题受到国内外地震工程界的普遍关注,被认为是今后结构抗震设计理论的发展方向之一.以一钢框架-钢筋混凝土剪力墙混合结构为对象,通过逐渐增大框架底层柱截面,分析它们在不同类型地震波下的地震能量反应,结果表明,加强钢框架底层柱使结构总输入能基本不发生变化,结构滞回耗能在总输入能中的比例ν和底部剪力墙滞回耗能占结构总滞回耗能的比例μ均随结构刚度特征值λ的增大而减小,因此,加强钢框架底层柱能够提高外钢框架-内混凝土剪力墙结构体系的抗震能力,降低其在强震作用下的损伤程度. 相似文献
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爆破地震作用下桩-土-结构相互作用的数值模拟 总被引:1,自引:0,他引:1
土-结构动力相互作用是地震工程和结构抗震的重要研究内容,但目前对爆破地震作用下土-结构动力相互作用的研究较少。运用大型有限元软件ANSYS/LS-DYNA,建立了桩-土-结构相互作用体系的三维有限元模型,由桩尖输入实测爆破地震波,取得了良好的计算效果。计算结果表明:考虑桩-土-结构相互作用后,群桩基础中每个桩的位移、加速度和剪应力幅值均呈桩顶大、桩尖小的倒三角分布,桩与承台的接合部比较容易受到损坏;桩-土-结构相互作用体系在爆破地震波冲击后,还会发生几次振动,但是这些振动产生的影响要小于爆破地震产生的影响,这与实测结果相符合;爆破地震波冲击下,群桩基础中,角桩顶部表面的桩土接触压力较大,但在爆破地震波冲击后,中心桩顶部表面的桩土接触压力较大,且具有一定的周期性,直至衰减为零。 相似文献
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Gravity retaining wall with geogrids has showed excellent seismic performance from Wenchuan great earthquake. However, seismic damage mechanism of this kind of wall is not sufficiently clear. In view of this, a large shaking table test of the gravity retaining wall with geogrids to reinforce the subgrade slope was carried out, and based on the Hilbert-Huang transform and the marginal spectrum theory, the energy identification method of the slope dynamic failure mode was studied. The results show that the geogrids can effectively reduce displacement and rotation of the retaining wall, and it can effectively absorb the energy of the ground movement when combined with the surrounding soil. In addition, it also reveals the failure development of the gravity retaining wall with geogrids to reinforce the subgrade slope. The damage started in the deep zone near the geogrids, and then gradually extended to the surface of the subgrade slope and other zones, finally formed a continuous failure surface along the geogrids. The analysis results of the failure mode identified by the Hilbert marginal spectrum are in good consistency with the experimental results, which prove that the Hilbert marginal spectrum can be applied to obtain the seismic damage mechanism of slope.
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对一基础隔震钢筋混凝土框架结构在无填充墙情况下进行了环境激励下的动力测试,重点利用Hilbert-Huang变换与随机减量技术相结合的方法识别了其模态参数,并与随机子空间识别法、有理分式多项式法识别的结果进行了对比。识别结果表明在环境激励下,基础隔震结构的基本周期远小于多遇和罕遇地震工况下设计计算的基本周期;等效黏滞阻尼比很小,近乎于基础固定模型。对隔震层阻尼特性的分析表明,环境激励下可以将基础隔震结构视为经典的比例阻尼系统。进一步以识别的模态参数为基准,采用优化的方法数值反演了环境激励下该结构隔震层的实际水平等效刚度,结果表明其值为多遇地震下计算刚度取值的10.75倍。 相似文献
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为研究地震作用下损伤累积对型钢高强混凝土框架节点抗震性能的影响,基于5榀型钢高强混凝土框架节点低周反复加载试验结果,分析节点构件损伤累积过程及其对刚度和强度的影响。从材料自身损伤入手,通过引入刚度影响系数考虑循环荷载作用下混凝土的单边效应,对Faria-Oliver本构模型进行改进,进而建立适应于型钢混凝土结构的材料损伤累积本构模型。同时基于该模型采用ANSYS分析软件对地震作用下的型钢高强混凝土框架节点进行数值分析,并与试验结果进行对比分析。结果表明:采用本文建立的材料损伤累积本构模型能较好地反映地震作用下型钢高强混凝土框架节点的损伤特性。在此基础上,进一步分析构件轴压比、配箍率、配钢率等设计参数对型钢高强混凝土框架节点抗震性能的影响。研究成果可为该类结构构件的抗震设计提供理论和技术支撑。 相似文献
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In this study, signal processing approaches and nonlinear identification are used to measure seismic responses of reinforced concrete (RC) structures using the shaking table test. To analyze structural nonlinearity, an equivalent linear system with time‐varying model parameters, singular spectrum analysis to elucidate residual deformation, and wavelet packet transformation analysis to yield the energy distribution among components are adopted to detect the nonlinearity. Then, damage feature extraction is conducted using both the Holder exponent and the Level‐1 detail of the discrete wavelet component. Finally, the modified Bouc‐Wen hysteretic model and the system identification process are employed to the shaking table test data to evaluate the physical parameters, including the stiffness degradation, the strength deterioration and the pinching hysteresis. Finally, the identified stiffness and strength degradation functions from the test data of RC frames in relation to the degree of ground shaking, damage index and the identified nonlinear features are discussed. Based on the proposed method, both signal‐based and model‐based identifications, the relationship between the damage occurrence and severity of structural damage can be identified. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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Structural damage assessment under external loading, such as earthquake excitation, is an important issue in structural safety evaluation. In this regard, appropriate data analysis and feature extraction techniques are required to interpret the measured data and to identify the state of the structure and, if possible, to detect the damage. In this study, the recursive subspace identification with Bona‐fide LQ renewing algorithm (RSI‐BonaFide‐Oblique) incorporated with moving window technique is utilized to identify modal parameters such as natural frequencies, damping ratios, and mode shapes at each instant of time during the strong earthquake excitation. From which the least square stiffness method (LSSM) combined with the model updating technique, called efficient model correction method (EMCM), is used to estimate the first‐stage system stiffness matrix using the simplified model from the previously identified modal parameters (nominal model). In the second stage, 2 different damage assessment algorithms related to the nominal system stiffness matrix were derived. First, the model updating technique, called EMCM, is applied to correct the nominal model by the newly identified modal parameters during the strong motion. Second, the element damage index can be calculated using element damage index method (EDIM) to quantify the damage extent in each element. Verification of the proposed methods through the shaking table test data of 2 different types of structures and a building earthquake response data is demonstrated to specify its corresponding damage location, the time of occurrence during the excitation, and the percentage of stiffness reduction. 相似文献
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Predominant period and equivalent viscous damping ratio identification for a full‐scale building shake table test 
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下载免费PDF全文 Michelle C. Chen Rodrigo Astroza José I. Restrepo Joel P. Conte Tara Hutchinson Yehuda Bock 《地震工程与结构动力学》2017,46(14):2459-2477
The predominant period and corresponding equivalent viscous damping ratio, also known in various loading codes as effective period and effective damping coefficient, are two important parameters employed in the seismic design of base‐isolated and conventional building structures. Accurate determination of these two parameters can reduce the uncertainty in the computation of lateral displacement demands and interstory drifts for a given seismic design spectrum. This paper estimates these two parameters from data sets recorded from a full‐scale five‐story reinforced concrete building subjected to seismic base excitations of various intensities in base‐isolated and fixed‐base configurations on the outdoor shake table at the University of California, San Diego. The scope of this paper includes all test motions in which the yielding of the reinforcement has not occurred and the response can still be considered ‘elastic’. The data sets are used with three system identification methods to determine the predominant period of response for each of the test configurations. One of the methods also determines the equivalent viscous damping ratio corresponding to the predominant period. It was found that the predominant period of the fixed‐base building lengthened from 0.52 to 1.30 s. This corresponded to a significant reduction in effective system stiffness to about 16% of the original stiffness. The paper then establishes a correlation between predominant period and peak ground velocity. Finally, the predominant periods and equivalent viscous damping ratios recommended by the ASCE 7‐10 loading standard are compared with those determined from the test building. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
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This paper presents an analytical study of the complete transform of improved Gabor wavelets (IGWs), and discusses its application to the processing and interpretation of seismic signals. The complete Gabor wavelet transform has the following properties. First, unlike the conventional transform, the improved Gabor wavelet transform (IGWT) maps time domain signals to the time-frequency domain instead of the time-scale domain. Second, the IGW’s dominant frequency is fixed, so the transform can perform signal frequency division, where the dominant frequency components of the extracted sub-band signal carry essentially the same information as the corresponding components of the original signal, and the subband signal bandwidth can be regulated effectively by the transform’s resolution factor. Third, a time-frequency filter consisting of an IGWT and its inverse transform can accurately locate target areas in the time-frequency field and perform filtering in a given time-frequency range. The complete IGW transform’s properties are investigated using simulation experiments and test cases, showing positive results for seismic signal processing and interpretation, such as enhancing seismic signal resolution, permitting signal frequency division, and allowing small faults to be identified. 相似文献
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Hilbert-Huang Transform(HHT)是一种新的适用于非线性、非平稳信号,且具有自适应性的数据处理方法.本文简要介绍了一座45层钢筋混凝土框架结构及其振动台试验模型概况. 利用HHT分析了模型结构在不同烈度地震中的反应记录,得到了Hilbert时频幅值三维分布和Hilbert边际谱.Hilbert谱得到记录能量集中分布的频段与时间范围,捕捉到信号变化的主要特征. Hilbert边际谱曲线形状和峰值频率值随着地震烈度的升级而发生了相应变化,而且所有的结果图形体现出相同的规律性,预示着Hilbert边际谱在土木工程结构安全评价中的应用前景. 相似文献