Your search keyword '"2013 Ruisui earthquake"' showing total 3 results

1. Hybrid Ground Motion Simulation for the 2013 ML 6.4 Ruisui, Taiwan Earthquake

Author

Yi-Ying Wen, Yin-Tung Yen, Strong Wen, Shiann-Jong Lee, Chun-Hsiang Kuo, and Yen-Yu Lin

Subjects

2013 Ruisui earthquake, Hybrid ground motion simulation, Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809

Abstract

The 2013 ML 6.4 Ruisui earthquake struck a seismic gap around the northern part of the Longitudinal Valley where rare earthquakes have occurred for at least two decades. Seismic data with different frequency bands connote a diverse scale of source characteristics. The slip model derived by a previous study using long-period seismic data provided us with the preliminary earthquake source properties in low-frequency energy radiation. However, the high-frequency part of the seismic energy needs to be considered for the strong motions in the comprehensive frequency band. As a case study, we carried out broadband strong motion simulations through the hybrid scheme, which simulated waveforms combining the low-frequency motions (frequency-wavenumber integration method) and high-frequency motions (empirical Green’s function method) to reveal the strong ground motion and source characteristics of the 2013 Ruisui earthquake. The results show that even though the local structure is complicated this hybrid simulation can effectively rebuild the overall broadband strong ground motion characteristics for the 2013 Ruisui earthquake. Additional study issues are required to better understand the nature of localized high peak ground acceleration and the related seismic hazards for future earthquakes.

Published

2016

2. Hybrid Ground Motion Simulation for the 2013 ML 6.4 Ruisui, Taiwan Earthquake.

Author

Yi-Ying Wen, Yin-Tung Yen, Strong Wen, Shiann-Jong Lee, Chun-Hsiang Kuo, and Yen-Yu Lin

Subjects

*EARTHQUAKES, *EARTHQUAKE hazard analysis, *WAVE analysis, *GREEN'S functions, *DATA analysis, *SEISMIC waves

Abstract

The 2013 ML 6.4 Ruisui earthquake struck a seismic gap around the northern part of the Longitudinal Valley where rare earthquakes have occurred for at least two decades. Seismic data with different frequency bands connote a diverse scale of source characteristics. The slip model derived by a previous study using long-period seismic data provided us with the preliminary earthquake source properties in low-frequency energy radiation. However, the high-frequency part of the seismic energy needs to be considered for the strong motions in the comprehensive frequency band. As a case study, we carried out broadband strong motion simulations through the hybrid scheme, which simulated waveforms combining the low-frequency motions (frequency-wavenumber integration method) and high-frequency motions (empirical Green's function method) to reveal the strong ground motion and source characteristics of the 2013 Ruisui earthquake. The results show that even though the local structure is complicated this hybrid simulation can effectively rebuild the overall broadband strong ground motion characteristics for the 2013 Ruisui earthquake. Additional study issues are required to better understand the nature of localized high peak ground acceleration and the related seismic hazards for future earthquakes. [ABSTRACT FROM AUTHOR]

Published

2016

3. Hybrid Ground Motion Simulation for the 2013 ML 6.4 Ruisui, Taiwan Earthquake

Author

Chun Hsiang Kuo, Strong Wen, Shiann-Jong Lee, Yin Tung Yen, Yen Yu Lin, and Yi Ying Wen

Subjects

Atmospheric Science, Peak ground acceleration, Seismic microzonation, 010504 meteorology & atmospheric sciences, lcsh:QE1-996.5, lcsh:G1-922, Environmental Seismic Intensity scale, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Incremental Dynamic Analysis, 2013 Ruisui earthquake, Physics::Geophysics, lcsh:Geology, Strong ground motion, Hybrid ground motion simulation, Seismic hazard, Earthquake simulation, Earth and Planetary Sciences (miscellaneous), Earthquake shaking table, lcsh:Geography (General), Geology, Seismology, 0105 earth and related environmental sciences

Abstract

The 2013 M_L 6.4 Ruisui earthquake struck a seismic gap around the northern part of the Longitudinal Valley where rare earthquakes have occurred for at least two decades. Seismic data with different frequency bands connote a diverse scale of source characteristics. The slip model derived by a previous study using long-period seismic data provided us with the preliminary earthquake source properties in low-frequency energy radiation. However, the high-frequency part of the seismic energy needs to be considered for the strong motions in the comprehensive frequency band. As a case study, we carried out broadband strong motion simulations through the hybrid scheme, which simulated waveforms combining the low-frequency motions (frequency-wavenumber integration method) and high-frequency motions (empirical Green's function method) to reveal the strong ground motion and source characteristics of the 2013 Ruisui earthquake. The results show that even though the local structure is complicated this hybrid simulation can effectively rebuild the overall broadband strong ground motion characteristics for the 2013 Ruisui earthquake. Additional study issues are required to better understand the nature of localized high peak ground acceleration and the related seismic hazards for future earthquakes.

Published

2016