Accounting for path and site effects in spatial ground-motion correlation models using Bayesian inference

IF 4.2 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
L. Bodenmann, J. Baker, B. Stojadinović
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引用次数: 1

Abstract

Abstract. Ground-motion correlation models play a crucial role in regional seismic risk modeling of spatially distributed built infrastructure. Such models predict the correlation between ground-motion amplitudes at pairs of sites, typically as a function of their spatial proximity. Data from physics-based simulators and event-to-event variability in empirically derived model parameters suggest that spatial correlation is additionally affected by path and site effects. Yet, identifying these effects has been difficult due to scarce data and a lack of modeling and assessment approaches to consider more complex correlation predictions. To address this gap, we propose a novel correlation model that accounts for path and site effects via a modified functional form. To quantify the estimation uncertainty, we perform Bayesian inference for model parameter estimation. The derived model outperforms traditional isotropic models in terms of the predictive accuracy for training and testing data sets. We show that the previously found event-to-event variability in model parameters may be explained by the lack of accounting for path and site effects. Finally, we examine implications of the newly proposed model for regional seismic risk simulations.
利用贝叶斯推理计算空间地震动相关模型中的路径和场地效应
摘要地震动相关模型在空间分布基础设施的区域地震风险建模中发挥着至关重要的作用。这种模型预测了成对场地的地面运动幅度之间的相关性,通常是它们空间接近度的函数。来自基于物理的模拟器的数据和经验推导的模型参数中的事件间可变性表明,空间相关性还受到路径和场地效应的影响。然而,由于缺乏数据以及缺乏考虑更复杂相关性预测的建模和评估方法,识别这些影响一直很困难。为了解决这一差距,我们提出了一种新的相关性模型,该模型通过修改的函数形式来考虑路径和站点效应。为了量化估计的不确定性,我们对模型参数估计进行了贝叶斯推断。在训练和测试数据集的预测精度方面,导出的模型优于传统的各向同性模型。我们表明,先前发现的模型参数中的事件间可变性可能是由于缺乏对路径和站点影响的解释。最后,我们研究了新提出的模型对区域地震风险模拟的影响。
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来源期刊
Natural Hazards and Earth System Sciences
Natural Hazards and Earth System Sciences 地学-地球科学综合
CiteScore
7.60
自引率
6.50%
发文量
192
审稿时长
3.8 months
期刊介绍: Natural Hazards and Earth System Sciences (NHESS) is an interdisciplinary and international journal dedicated to the public discussion and open-access publication of high-quality studies and original research on natural hazards and their consequences. Embracing a holistic Earth system science approach, NHESS serves a wide and diverse community of research scientists, practitioners, and decision makers concerned with detection of natural hazards, monitoring and modelling, vulnerability and risk assessment, and the design and implementation of mitigation and adaptation strategies, including economical, societal, and educational aspects.
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