| 講演要旨(和文) | | 2018年北海道胆振東部地震(MJMA 6.7)では,北海道厚真町で震度7,同安平町,むかわ町で震度6強を観測するなど,周辺の強震観測点で大きな加速度,速度記録が得られた.このような大きな地震動の生成要因の一つとして,地盤特性が考えられる.本報では,防災科学研究所基盤強震観測網KiK-netのうち,震源周辺で大きな地震動が観測された三つの強震観測点(KiK-net千歳,門別西,厚真)において,微動アレイ観測,及び単点微動観測を実施し,得られた位相速度分散曲線やH/Vスペクトル比を用いることで,各観測点直下の1次元速度構造モデルを推定し,既存の速度構造モデルとの比較を行った.さらに,改良した速度構造モデルの妥当性を検証するための地震動シミュレーションを実施し,実地震動との比較検討を行った. |
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| | 講演要旨(英文) | | On September 6, 2018, Hokkaido eastern Iburi earthquake (Mw6.6) caused large ground motions with peak ground acceleration greater than 500 cm/s2 at several strong motion stations around the source area. For understanding the mechanism of these large ground motions during this earthquake, we focus on the site characteristics and their contributions to strong ground motions. Microtremor array observations and single-station microtremor observations are conducted for three stations (KiK-net Chitose, Mombetsu-W, and Atsuma) which recorded large ground motion near the source area. From the obtained phase velocities and H/V spectra, we estimate the underground velocity structure models and discuss their effects on strong ground motions. |
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