随机参数模拟地震地面运动的优化柯西-高斯混合模型

Prevention and Treatment of Natural Disasters Pub Date : 2022-05-31 DOI:10.54963/ptnd.v1i1.62

R. Sharbati, H. Amindavar, H. Ramazi, S. Foti, B. Farzanegan

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引用次数: 2

摘要

本文提出了一种合成地震地震动产生的随机模型。首先利用双树复离散小波变换(DT-CDWT)提取记录的小波系数，然后利用优化的柯西-高斯混合(CGB)模型对记录的小波系数进行模拟。该模型采用高斯分布模拟平滑峰，柯西分布模拟脉冲峰，较好地预测了地震动的能量分布。同时，该模型模拟了多个时域上升-下降周期，每次预测多个频率峰值，并模拟了序列型记录。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Optimized Cauchy-Gaussian Blend Model for Stochastic-Parametric Simulation of Seismic Ground Motions

This article proposes a stochastic model for generation of synthetic seismic ground motions. In the first step, the wavelet coefficients of a record are extracted by the dual-tree complex discrete wavelet transform (DT-CDWT) and then they are simulated by an optimized Cauchy-Gaussian blend (CGB) model. This model predicts well the energy distribution of seismic ground motions, because in this model, the Gaussian distribution simulates smooth peaks and the Cauchy distribution is used to simulate impulsive peaks. Also, this model simulates several ascending-descending cycles in the time domain, predicts multiple frequency peaks each time, and simulates sequence-type records.

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Prevention and Treatment of Natural Disasters

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