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13:30 | A101★ | 分岐断層の破壊進展方向に関するXFEMシミュレーション XFEM Simulation on Rupture Direction of Branching Faults |
| ◎山下大輝・後藤浩之・澤田純男 ◎Daiki YAMASHITA・Hiroyuki GOTO・Sumio SAWADA |
13:45 | A102★ | GNSSデータを用いた短期的スロースリップイベントの検出手法の開発と南海沈み込み帯への適用 Development of the Detection Method for Short-term Slow Slip Events Using GNSS Data and its Application to the Nankai Subduction Zone |
| ◎岡田悠太郎・西村卓也・田部井隆雄・松島健・廣瀬仁 ◎Yutaro OKADA・Takuya NISHIMURA・Takao TABEI・Takeshi MATSUSHIMA・Hitoshi HIROSE |
14:00 | A103★ | Relative Motion and Crustal Deformation estimated from Geodetic Data of Southern Sagaing Fault in Myanmar |
| ◎Tha Zin Htet Tin・Takuya NISHIMURA・Manabu HASHIMOTO・Eric LINDSEY・Lin Thu Aung・Myo Thant |
14:15 | A104★ | 西南日本のメガスラスト地震サイクルにおける内陸断層のクーロン応力変化に基づく地震活動シミュレーション Earthquake Simulation Using Coulomb Stress Change on Inland Faults during the Megathrust Earthquake Cycle in Southwest Japan |
| ◎水戸川司・西村卓也 ◎Tsukasa MITOGAWA・Takuya NISHIMURA |
14:30 | A105★ | 深層学習を用いた250 Hzサンプリング波形の自動走時読み取り Automatic Seismic Arrival-time Picking of Seismogram Sampled at 250 Hz Using Deep Learning |
| ◎加藤慎也・飯尾能久・片尾浩・澤田麻沙代・冨阪和秀 ◎Shinya KATOH・Yoshihisa IIO・Hiroshi KATAO・Masayo SAWADA・Kazuhide TOMISAKA |
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15:00 | A106★ | Three-Dimensional Upper Crustal Seismic Velocity Model for Central Nepal from Local Earthquake Tomography |
| ◎Chintan TIMSINA・James MORI・Masumi YAMADA |
15:15 | A107 | これからの地震学について: II. 加速度センサーの技術革新とその地震計への応用 Future seismology: II. Technological Innovation of accelerometers and applications to seismometers |
| 徐培亮 Peiliang XU |
15:30 | A108 | 拡張IPF法(IPFx):高精度でユニバーサルな即時震源決定法 IPFx: Achieving High-performance EEW System Using an Extended IPF Method |
| ◎山田真澄・溜渕功史・Stephen WU ◎Masumi YAMADA・Koji TAMARIBUCHI・Stephen WU |
15:45 | A109 | 2020年飛騨山脈群発地震 ~地殻変動から推定されたダイク貫入イベント~ Intense Swarm Activity in the Hida Mountain Range, Central Japan, Started from April 2020, Followed by a Dyke Intrusion Event Inferred from Crustal Deformation |
| ◎大見士朗・西村卓也 ◎Shiro OHMI・Takuya NISHIMURA |
16:00 | A110 | 室内水圧破砕実験で生じる微小破壊の震源メカニズム推定 Focal Mechanisms of Acoustic Emissions Induced by Hydraulic Fracturing in Laboratory |
| ◎直井誠・田中塁・陳友晴・有馬雄太郎 ◎Makoto NAOI・Rui TANAKA・Youqing CHEN・Yutaro ARIMA |
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16:30 | A111 | 和歌山北部の隆起:今村明恒の足跡を辿って Uplift in Northern Wakayama Area: Following the Track of Prof. Akitsune Imamura |
| 橋本学 Manabu HASHIMOTO |
16:45 | A112★ | Updating Conventional Hazard Map Resolutions to Include Local Site Information Using Uncertainty Projected Mapping |
| ◎Anirban CHAKRABORTY・Hiroyuki GOTO・Sumio SAWADA |
17:00 | A113★ | Estimations of Strong Ground Motions in Downtown Mashiki during the Mainshock of 2016 Kumamoto Earthquake Using the Nonlinear Analysis Method |
| ◎Jikai SUN・Hiroshi KAWASE・Kiyoshi FUKUTAKE・Fumiaki NAGASHIMA・Shinichi MATSUSHIMA |
17:15 | A114★ | 断層破壊指向性を考慮したスペクトルインバージョン法の高度化 Upgrading of Spectral Inversion Method Considering with Rupture Directivity |
| ◎染井一寛・浅野公之・岩田知孝 ◎Kazuhiro SOMEI・Kimiyuki ASANO・Tomotaka IWATA |
17:30 | A115★ | 1944年東南海地震の観測被害率の再現による不均質震源モデルの構築 Complex Source Characterization of 1944 Tonankai Earthquake from Simulated Damage Ratios based on the Simulated Strong Motions |
| ◎伊藤恵理・仲野健一・関口春子・川瀬博 ◎Eri ITO・Kenichi NAKANO・Haruko SEKIGUCHI・Hiroshi KAWASE |
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18:00 | A116★ | 強震波形記録の自己相関関数解析による京都盆地,大阪平野での基盤面深度の推定 Estimation of Basin Basement Depth Using Autocorrelation Analysis of Strong Motion Records in the Kyoto and Osaka Basins |
| ◎福留脩太・浅野公之・岩田知孝 ◎Shuta FUKUTOME・Kimiyuki ASANO・Tomotaka IWATA |
18:15 | A117 | 近江盆地南部における微動アレイ探査 Microtremor Array Surveys in the Southern Part of Omi Basin |
| ◎浅野公之・岩田知孝・関口春子・杉山長志 ◎Kimiyuki ASANO・Tomotaka IWATA・Haruko SEKIGUCHI・Takeshi SUGIYAMA |
18:30 | A118 | 値の有意差が均一に表現される地震ハザードマップ Uniform Uncertainty Mapping Application to Seismic Hazard Map |
| ◎後藤浩之・Anirban CHAKRABORTY ◎Hiroyuki GOTO・Anirban CHAKRABORTY |
18:45 | A119 | 奈良盆地東縁断層帯における重点的な調査観測について(2) Comprehensive Research Project for the Nara-bonchi-toen Fault Zone (2) |
| ◎岩田知孝・奈良盆地東縁断層帯重点調査観測研究グループ ◎Tomotaka IWATA・Comprehensive Research Group for the Nara-bonchi-toen Fault Zone |
19:00 | A201★ |
Estimation of Site Effect Proxies from K-NET and KiK-net Data Using Recurrent Neural Networks |
| ◎Mona IZADI・Shinichi MATSUSHIMA |
19:15 | A202★ | Differences in Horizontal-to-Vertical Spectral Rations of Microtremors due to Basin Geometry at the Eastern Boundary of Kyoto Basin |
| ◎Zhiwei LIU・Shinichi MATSUSHIMA・Teru ITO |