Evaluation of the Inter-frequency Correlation of New Zealand CyberShake Crustal Earthquake Simulations

IF 0.8 Q4 ENGINEERING, GEOLOGICAL Bulletin of the New Zealand Society for Earthquake Engineering Pub Date : 2023-12-09 DOI:10.5459/bnzsee.1623
J. Bayless, Scott Condon
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Abstract

The inter-frequency correlation of ground-motion residuals is related to the width of peaks and troughs in the ground-motion spectra (either response spectra or Fourier amplitude spectra; FAS) and is therefore an essential component of ground-motion simulations for representing the variability of structural response. As such, this component of the simulations requires evaluation and validation when the intended application is seismic fragility and seismic risk. This article evaluates the CyberShake NZ [1] crustal earthquake ground-motion simulations for their inter-frequency correlation, including comparisons with an empirical model developed from a global catalogue of shallow crustal earthquakes in active tectonic regions, and with results from similar simulations (SCEC CyberShake; [2]). Compared with the empirical model, the CyberShake NZ simulations have a satisfactory level of total inter-frequency correlation between the frequencies 0.1 – 0.25 Hz. At frequencies above 0.25 Hz, the simulations have lower (statistically significant at 95% confidence level) total inter-frequency correlation than the empirical model and therefore require calibration. To calibrate the total correlation, it is useful to focus on the correlation of the residual components. The between-event residual correlations, physically related to source effects (e.g., stress drop) which drive ground motions over a broad frequency range, are low at frequencies greater than about 0.25 Hz. Modifications to the cross-correlation between source parameters in the kinematic rupture generator can improve the inter-frequency correlations in this range [3]. The between-site residual correlations, which represents the correlation between frequencies of the systematic site amplification deviations, are larger (statistically significant at 95% confidence level) than the empirical model for frequencies less than about 0.5 Hz. We postulate that this relates to the relative simplicity of site amplification methods in the simulations, which feature less variability than the amplification observed in the data. Additional insight would be gained from future evaluations accounting for repeatable path and basin effects, using simulations with refined or alternative seismic velocity models, and using simulations with a higher crossover frequency to deterministic methods (e.g., 1 Hz or higher).
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新西兰 CyberShake 地壳地震模拟的频率间相关性评估
地动残差的频间相关性与地动频谱(响应频谱或傅立叶振幅频谱;FAS)中的峰谷宽度有关,因此是地动模拟中表示结构响应变异性的重要组成部分。因此,在预期应用地震脆性和地震风险时,需要对模拟的这一组成部分进行评估和验证。本文评估了 CyberShake NZ [1]地壳地震地动模拟的频率间相关性,包括与根据活动构造区全球浅层地壳地震目录开发的经验模型以及类似模拟(SCEC CyberShake;[2])的结果进行比较。与经验模型相比,CyberShake NZ 模拟在 0.1 - 0.25 Hz 频率之间的总频率间相关性达到了令人满意的水平。在频率高于 0.25 Hz 时,模拟的总频率间相关性低于经验模型(在 95% 置信度下具有统计学意义),因此需要进行校准。要校准总相关性,最好关注残差成分的相关性。事件间的残差相关性与源效应(如应力下降)有物理关系,它在很大频率范围内驱动地面运动,但在频率大于约 0.25 Hz 时,残差相关性较低。修改运动学破裂发生器中震源参数之间的交叉相关性可以改善这一范围内的频率间相关性[3]。对于小于 0.5 Hz 的频率,站点间残差相关性(代表系统站点放大偏差频率间的相关性)比经验模型更大(在 95% 置信度下具有统计学意义)。我们推测,这与模拟中站点放大方法相对简单有关,其特点是变异性小于数据中观察到的放大。未来的评估将考虑可重复路径和盆地效应,使用改进或替代地震速度模型进行模拟,以及使用与确定性方法更高的交叉频率(如 1 Hz 或更高)进行模拟,从而获得更多见解。
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来源期刊
CiteScore
2.50
自引率
17.60%
发文量
14
期刊最新文献
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