2023
DOI: 10.1029/2022gl101774
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An Early Forecast of Long‐Period Ground Motions of Large Earthquakes Based on Deep Learning

Abstract: Long-period (LP) seismic waves (approximately 2-10 s), radiated from the sources of large earthquakes, propagate over several hundred kilometers without much weakening due to their long wavelength and produce large-amplitude and long-duration shaking in distant basins. Large-scale structures, such as skyscrapers and oil storage tanks, might resonate with this LP ground motion and suffer damage. During the 2003 Tokachi-oki earthquake (Mw 8.0), the floating roof of an oil storage tank in the Yufutsu basin of Hok… Show more

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“…Tamhidi et al (2022) proposed an approach where ground-motion time series at target sites are constructed from a set of observed motions using a Gaussian process regression, which treats the real and imaginary parts of the Fourier spectrum as random Gaussian variables. Furumura and Oishi (2023) developed a DL approach for early prediction of long-period ground motions at a target point far from the earthquake source based on waveform observations near the source. This approach could effectively forecast long-period ground motions of large earthquakes regarding amplitude, waveform envelope shape, spectral characteristics, and duration.…”
Section: Prediction Of Ground-motion Time Series From Time Seriesmentioning
confidence: 99%
“…Tamhidi et al (2022) proposed an approach where ground-motion time series at target sites are constructed from a set of observed motions using a Gaussian process regression, which treats the real and imaginary parts of the Fourier spectrum as random Gaussian variables. Furumura and Oishi (2023) developed a DL approach for early prediction of long-period ground motions at a target point far from the earthquake source based on waveform observations near the source. This approach could effectively forecast long-period ground motions of large earthquakes regarding amplitude, waveform envelope shape, spectral characteristics, and duration.…”
Section: Prediction Of Ground-motion Time Series From Time Seriesmentioning
confidence: 99%