SSS14-P01 |
Prototype damage scenario database for disaster prevention training for active faults |
Hiromitsu Nakamura |
Abstract |
SSS14-P02 |
Modeling of subsurface velocity structure from seismic bedrock to ground surface in Tokai region, central Japan – an example of Aichi and Shizuoka Pref. |
Atsushi Wakai |
Abstract |
SSS14-P03 |
Long-period pulse and static displacement of the 2016 Kumamoto earthquake based on the comparison with prediction equations |
Toshimi Satoh |
Abstract |
SSS14-P04 |
Strong-motion data recorded by 1s-sampling GNSS during the 2016 Kumamoto earthquake |
Hisahiko Kubo |
Abstract |
SSS14-P05 |
Estimation of Long-Period Ground Motions Containing Permanent Displacement in the Near-Fault Region for 2016 Kumamoto Earthquake |
Tanaka Shinya |
Abstract |
SSS14-P06 |
Seismic Reflection/Refraction Survey in Yatsushiro sedimentary basin, Kumamoto |
Tomotaka Iwata |
Abstract |
SSS14-P07 |
Evaluation of strong ground motion based on 3-D gravity basement structure in the Mashiki, Kumamoto, Japan |
Tatsuya Noguchi |
Abstract |
SSS14-P08 |
Estimation of subsurface structures from microtremor surveys in Kurokawa area, South Aso village, Kumamoto, Japan |
Shohei Yoshida |
Abstract |
SSS14-P09 |
Analysis of microtremors from aftershock observation in damaged area of the Kumamoto earthquake using seismic interferometry |
Masaki Watanabe |
Abstract |
SSS14-P10 |
Consideration of microtremor array observation results in Kumamoto area |
Shigeki Senna |
Abstract |
SSS14-P11 |
Ground type classification for strong motion evaluation based on the characteristics of Phase-Velocity Curves estimated by Microtremor Array Measurements |
Shigeki Senna |
Abstract |
SSS14-P12 |
Accuracy of a vertical-component microtremor-array-survey method: with special reference to a simple method for estimating interval-averaged S-wave velocities as a starting point of further discussion |
Ikuo Cho |
Abstract |
SSS14-P13 |
Joint inversion of apparent resistivity and surface-wave phase velocity for shallow soil model |
yutaro shigehara |
Abstract |
SSS14-P14 |
S-wave velocity and attenuation structure as estimated from deconvolution analysis of KiK-net records |
SHIBATA TSUYOSHI |
Abstract |
SSS14-P15 |
A study on estimations of the P-wave and S-wave velocity structure based on the diffuse wave field theory, using H/V spectral ratios of micorotremors and earthquake motions. |
Kenichi Nakano |
Abstract |
SSS14-P16 |
Characteristics of ground vibration and cause of structural damage due to the 2016 central Tottori prefecture earthquake in the central Tottori prefecture, Japan |
Tatsuya Noguchi |
Abstract |
SSS14-P17 |
Site effects separated from strong-motion records in Okayama Prefecture |
Ayumu Uneoka |
Abstract |
SSS14-P18 |
Site amplification characteristics in Nakayama and Sagae, Yamagata Prefecture |
Fuminari Honda |
Abstract |
SSS14-P19 |
Use of Microtremor Array Recordings for Estimating Surface-wave Group Velocities in Kathmandu Valley, Nepal |
Takumi Hayashida |
Abstract |
SSS14-P20 |
Estimation of basement structure of Kathmandu valley, Central Nepal by using gravity survey method |
Om Pradhan |
Abstract |
SSS14-P21 |
Strong Motion Observation Network in the Kathmandu Valley, Nepal |
Michiko Shigefuji |
Abstract |
SSS14-P22 |
Shallow soil effects for contrasting PGAs at nearby strong-motion stations dring the Mj 5.2, 2017, Southern Akita Prefecture earthquake |
Yadab Prasad Dhakal |
Abstract |
SSS14-P23 |
Early prediction of peak ground acceleration considering site effect parameters |
Ting Yu Hsu |
Abstract |
SSS14-P24 |
Rupture Process of the M5.5 Orkney Earthquake Using Strainmeters at Very Close Distance |
Tatunari Yasutomi |
Abstract |
SSS14-P25 |
Source characterization of the 2014 Iquique, Chile, earthquake (Mw 8.1) based on an inversion of strong-motion waveforms |
Yujia Guo |
Abstract |
SSS14-P26 |
Investigation of Source Characteristics of Subduction Zone in Chile Region |
Yusuke Tomozawa |
Abstract |
SSS14-P27 |
Rupture process of the 2016 Fukushima-ken oki earthquake and stress change on the fault |
Kunikazu Yoshida |
Abstract |
SSS14-P28 |
Characterized source model of the 2013 Lushan earthquake (Mw6.6), China |
Hao Wu |
Abstract |
SSS14-P29 |
Source process of the 2014 Nakagano-ken Hokubu earthquake (MJ 6.7) - Reanalysis considering 3D subsurface structure - |
Kazuhito Hikima |
Abstract |
SSS14-P30 |
Source model of the 2016 central Tottori prefecture earthquake (MJMA6.6) using the empirical Green's function method |
Kaori Nagai |
Abstract |
SSS14-P31 |
Difference in seismic source characteristics between surface and buried fault rupture of crustal earthquake in Japan |
Shohei Yoshida |
Abstract |
SSS14-P32 |
Investigation of slip in shallower region than the seismogenic layer for the inland crustal earthquakes |
Ken Miyakoshi |
Abstract |
SSS14-P33 |
A numerical experiment on the real-time prediction of long-period ground motions using response function: Case study in the Kanto plain using 3D simulation waveforms |
Kazuo Yoshimoto |
Abstract |
SSS14-P34 |
Effects of random heterogeneity in the crust on long-period ground-motion simulations in Kanto area |
Asako Iwaki |
Abstract |
SSS14-P35 |
Broadband ground motion waveform synthesis utilizing AI-based upsampling technique |
Takahiro Maeda |
Abstract |
SSS14-P36 |
A study on ground motion simulation by using different source characterization approaches |
Yasuhiro Matsumoto |
Abstract |
SSS14-P37 |
Study on the evaluation method for fault displacement: Deterministic evaluation approach based three step considerations (part2). |
Tonagi Masao |
Abstract |
SSS14-P38 |
Study on applicability of corrected empirical Green's function method considering near and intermediate field terms to real earthquakes |
Yosuke Nagasaka |
Abstract |
SSS14-P39 |
Damage characteristics of wooden buildings by the building age according to the 2016 Kumamoto earthquake |
naokazu momma |
Abstract |
SSS14-P40 |
Consideration of real time individual building damage estimation using response analysis |
Yoshinori TOKIZANE |
Abstract |