通过生成式对抗网络的潜在空间编码进行主震-余震序列模拟

IF 8.5 1区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computer-Aided Civil and Infrastructure Engineering Pub Date : 2024-09-29 DOI:10.1111/mice.13348
Zekun Xu, Jiaxu Shen, Huayong Wu, Jun Chen
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引用次数: 0

摘要

强烈主震(MS)之后的余震(AS)会加剧结构破坏或导致坍塌。然而,由于记录数据稀缺,必须依赖人工序列,而人工序列难以表征 MS 和 AS 之间的时频相关性。本研究利用加速度图与时频表示之间的可逆变换,创新性地将自动变速器时间历史预测转换为图像转换任务。开发的编码器-解码器神经网络可将 MS 信息编码到预先训练好的生成式对抗网络的潜在空间中,从而通过解码器实现准确的 AS 预测。地震参数的整合进一步提高了 AS 预测性能。对比分析表明,所提出的方法在准确性和鲁棒性方面优于传统方法,并能再现 AS 的非平稳性。
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Mainshock–aftershock sequence simulation via latent space encoding of generative adversarial networks
Aftershocks (ASs) following strong mainshocks (MSs) can exacerbate structural damage or lead to collapse. However, the scarcity of recorded data necessitates reliance on artificial sequences, which have difficulty in characterizing the time-frequency correlation between MSs and ASs. This study innovatively converts the AS time history prediction into an image translation task, exploiting the invertible transformation between accelerograms and time-frequency representations. An encoder–decoder neural network is developed to encode the MS information into the latent space of a pre-trained generative adversarial network, enabling accurate AS predictions through the decoder. The integration of seismic parameters further improves the AS prediction performance. Comparative analyses demonstrate that the proposed method outperforms the traditional ones on accuracy and robustness and reproduces the non-stationarity of ASs.
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来源期刊
CiteScore
17.60
自引率
19.80%
发文量
146
审稿时长
1 months
期刊介绍: Computer-Aided Civil and Infrastructure Engineering stands as a scholarly, peer-reviewed archival journal, serving as a vital link between advancements in computer technology and civil and infrastructure engineering. The journal serves as a distinctive platform for the publication of original articles, spotlighting novel computational techniques and inventive applications of computers. Specifically, it concentrates on recent progress in computer and information technologies, fostering the development and application of emerging computing paradigms. Encompassing a broad scope, the journal addresses bridge, construction, environmental, highway, geotechnical, structural, transportation, and water resources engineering. It extends its reach to the management of infrastructure systems, covering domains such as highways, bridges, pavements, airports, and utilities. The journal delves into areas like artificial intelligence, cognitive modeling, concurrent engineering, database management, distributed computing, evolutionary computing, fuzzy logic, genetic algorithms, geometric modeling, internet-based technologies, knowledge discovery and engineering, machine learning, mobile computing, multimedia technologies, networking, neural network computing, optimization and search, parallel processing, robotics, smart structures, software engineering, virtual reality, and visualization techniques.
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