Modeling of the Subsurface Structure from the Seismic Bedrock to the Ground Surface for a Broadband Strong Motion Evaluation-Reference-Cited by-同舟云学术

Modeling of the Subsurface Structure from the Seismic Bedrock to the Ground Surface for a Broadband Strong Motion Evaluation

Published:2013-10-01 Issue:5 Volume:8 Page:889-903
ISSN:1883-8030
Container-title:Journal of Disaster Research
language:en
Short-container-title:J. Disaster Res.

Author:

Senna Shigeki, ,Maeda Takahiro,Inagaki Yoshiaki,Suzuki Haruhiko,Matsuyama Hisanori,Fujiwara Hiroyuki,

Abstract

Sophisticated predictions of strong ground motion are vital when constructing structure models that enable us to evaluate broadband ground motion features. Such models should integrate subsurface structure models for strata shallower than engineering bedrock and deep structuremodels for strata even deeper. Both such models used to be separately modeled separately so that observation data could be reproduced. In this study, we have created a subsurface structure model applicable from seismic bedrock to ground surface for individual Japanese individual prefectures, e.g., Chiba and Ibaragi, in attempts to sophisticate subsurface structure models. This paper describes how we created these models and reviews our results.

Publisher

Fuji Technology Press Ltd.

Subject

Engineering (miscellaneous),Safety, Risk, Reliability and Quality

Reference23 articles.

1. H. Miyake, K. Koketsu, T. Furumura, Y. Inagaki, T.Masuda, S. Midorikawa, “Integration of the shallow subsurface-structure model for strong ground motion prediction in the Tokyo metropolitan area,” Proceedings of the 12thJapan Earthquake Engineering Symposium, pp. 214-217, 2006 (in Japanese).

2. H. Fujiwara, S. Kawai, S. Aoi, N. Morikawa, S. Senna, N. Kudo, M. Ooi, K. X.-S. Hao, Y. Hayakawa, N. Toyama, N. Matsuyama, K. Iwamoto, H. Suzuki, and R. Ei, “A Study on Subsurface Structure Model for Deep Sedimentary layers of Japan for Strong-motion Evaluation,” Technical Note of the National Research Institute for Earth Science and Disaster Prevention, No.337, November 2009 (in Japanese).

3. S. Senna, T.Maeda, Y. Inagaki, H. Suzuki, K. Jin, K. Miyamato, H. Matsuyama, N. Morikawa, S. Kawai, and H. Fujiwara, “Modeling of the Subsurface Structure from the Seismic Bedrock to the Ground Surface for a Broadband Strong Motion Evaluation in Chiba and Ibaraki Prefecture,” Technical Note of the National Research Institute for Earth Science and Disaster Prevention, No.370, March 2013 (in Japanese).

4. S. Senna, Y. Inagaki, H. Matsuyama, and H. Fujiwara, “Examination of Integrated Velocity Model of Shallow and Deep Structure in Fujisawa City in Japan,” 15thWCEE, 2012, Lisbon, paper No.2861.

5. S. Senna, N. Kudo, H. Fujiwara, “Velocity Structure Model for Tsukuba Area in Japan, Estimated from a Geological Model and H/V Spectral Ratio of Microtremors,” 14thWCEE, 2008, Beijin, paper No.07-0054.

Cited by 19 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Unified approach for evaluation of horizontal site amplification factors with special reference to history of studies on the effects of surface geology on seismic motion;Earth, Planets and Space;2023-06-09

2. The spatial properties of the site amplifications of S-waves by generalized spectral inversion technique and the correction method of the site amplifications considering the contribution of later arrivals after major S-waves;Earth, Planets and Space;2023-05-04

3. Development of international standard ISO 24057 on the array microtremor survey;BUTSURI-TANSA(Geophysical Exploration);2023

4. Seismic probabilistic risk estimation of Japanese railway embankments and risk-based design strength of soil and reinforcement;Soil Dynamics and Earthquake Engineering;2022-12

5. Global polygons for terrain classification divided into uniform slopes and basins;Progress in Earth and Planetary Science;2022-06-03