CURRENT STATUS OF STRONG-MOTION EARTHQUAKE OBSERVATION IN JAPANESE PORTS

Similar documents
Figure Locations of the CWB free-field strong motion stations, the epicenter, and the surface fault of the 1999 Chi-Chi, Taiwan earthquake.

PRELIMINARY STUDY OF GROUND MOTION CHARACTERISTICS IN FURUKAWA DISTRICT, JAPAN, BASED ON VERY DENSE SEISMIC-ARRAY-OBSERVATION

OBSERVATION OF STRONG EARTHQUAKE MOTION BY NATIONAL INSTITUTE FOR LAND AND INFRASTRUCTURE MANAGEMENT


4 Associate Professor, DPRI, Kyoto University, Uji, Japan

A SEMI-EMPIRICAL METHOD USING A HYBRID OF STOCHASTIC AND DETERMINISTIC FAULT MODELS: SIMULATION OF STRONG GROUND MOTIONS DURING LARGE EARTHQUAKES

Simulation of Strong Ground Motions for a Shallow Crustal Earthquake in Japan Based on the Pseudo Point-Source Model

Simulated Earthquake Ground Motion for Structural Design"

Ground Motions with Static Displacement Derived from Strong-motion Accelerogram Records by a New Baseline Correction Method

STRONG MOTION PREDICTION ON ROCK SURFACE BY SUPERPOSED EVOLUTIONARY SPECTRA

REAL-TIME ASSESSMENT OF EARTHQUAKE DISASTER IN YOKOHAMA BASED ON DENSE STRONG-MOTION NETWORK

CHARACTERISTICS OF STRONG GROUND MOTION FROM THE 2011 GIGANTIC TOHOKU, JAPAN EARTHQUAKE

RECIPE FOR PREDICTING STRONG GROUND MOTIONS FROM FUTURE LARGE INTRASLAB EARTHQUAKES

NATIONWIDE SITE AMPLIFICATION ZONATION STUDY USING JAPAN ENGINEERING GEOMORPHOLOGIC CLASSIFICATION MAP

RE-EVALUATION OF NONLINEAR SITE RESPONSE DURING THE 1964 NIIGATA EARTHQUAKE USING THE STRONG MOTION RECORDS AT KAWAGISHI-CHO, NIIGATA CITY

STRONG MOTION RECORDS FROM THE 2011 OFF THE PACIFIC COAST OF TOHOKU EARTHQUAKE

Estimation of liquefaction and layers using Hachinohe geotechnical information database

EVALUATION OF SITE AMPLIFICATION AND PHASE EFFECTS IN KUSHIMOTO TOWN, WAKAYAMA PREFECTURE, JAPAN

Frequency-dependent Strong Motion Duration Using Total Threshold Intervals of Velocity Response Envelope

Study on acceleration response spectra for seismic design based on observed records in Hokkaido, JAPAN

Borehole Strong Motion Observation along the Itoigawa-Shizuoka Tectonic Line

FREQUENCY DEPENDENT EQUIVALENT-LINEARIZED TECHNIQUE FOR FEM RESPONSE ANALYSIS OF GROUND

Seismic Activity and Crustal Deformation after the 2011 Off the Pacific Coast of Tohoku Earthquake

Preliminary Analysis for Characteristics of Strong Ground Motion from Gigantic Earthquakes

Some Problems Related to Empirical Predictions of Strong Motion

Y. Shioi 1, Y. Hashizume 2 and H. Fukada 3

PROBABILISTIC SEISMIC HAZARD MAPS AT GROUND SURFACE IN JAPAN BASED ON SITE EFFECTS ESTIMATED FROM OBSERVED STRONG-MOTION RECORDS

Correlation of JMA instrumental seismic intensity with strong motion parameters

NEW ATTENUATION RELATIONS FOR PEAK GROUND ACCELERATION AND VELOCITYCONSIDERING EFFECTS OF FAULT TYPE AND SITE CONDITION

6 th International Conference on Earthquake Geotechnical Engineering 1-4 November 2015 Christchurch, New Zealand

Data Sharing at the National Research Institute for Earth Science and Disaster Resilience

Department of Civil Engineering, Kyoto University, by Shunzo OKAMOTO, M. J. A., Sept.

New Prediction Formula of Fourier Spectra Based on Separation Method of Source, Path, and Site Effects Applied to the Observed Data in Japan

Long-period Ground Motion Characteristics of the Osaka Sedimentary Basin during the 2011 Great Tohoku Earthquake

ACTIVITIES OF THE HEADQUARTERS FOR EARTHQUAKE RESEARCH PROMOTION

Japan Agency for Marine-Earth Science and Technology (JAMSTEC), 2-15 Natsushima-cho, Yokosuka, Kanagawa, , JAPAN

Hideaki Kawasaki 1), Yoshikazu Yamaguchi 2), Takashi Sasaki 3) and Kenji Inagaki 4)

SEISMIC PERFORMANCE OF URBAN, RECLAIMED AND PORT AREAS -FULL SCALE EXPERIMENT USING BLAST TECHNIQUE. Takahiro SUGANO 1) and Eiji KOHAMA 2)

SOURCE, PATH AND SITE EFFECTS ON STRONG GROUND MOTIONS FROM THE 2003 TOKACHI-OKI EARTHQUAKE SEQUENCE

Utilization of Global Map for Societal Benefit Areas

SAFETY EVALUATION OF SEISMICALLY ISOLATED HOUSES WITH DISPLACEMENT RESTRAINT DEVICES UNDER SEVERE EARTHQUAKE MOTIONS

STRONG-MOTION SEISMOGRAPH NETWORK OPERATED BY NIED: K-NET AND KiK-net

(c) (a) (b) EFFECTS OF LOCAL SITE AMPLIFICATION ON DAMAGE TO WOODEN HOUSES

BROADBAND STRONG MOTION SIMULATION OF THE 2004 NIIGATA- KEN CHUETSU EARTHQUAKE: SOURCE AND SITE EFFECTS

A Seismic Simulation Technology Contributed to Preventing Earthquake Disaster

STRONG GROUND MOTION ATTENUATION IN THE SEA OF JAPAN (OKHOTSK-AMUR PLATES BOUNDARY) REGION

LETTER Earth Planets Space, 56, , 2004

STUDIES ON SEVARAL COUNTERMEASURES AGAINST LIQUEFACTION-INDUCED FLOW AND AN APPLIVATION OF A MEASURE TO EXISTING BRIDGES IN TOKYO

REPORT ON THE TOHOKU AREA PASIFIC OFFSHORE EARTHQUAKE

Effects of Surface Geology on Seismic Motion

Rupture process of the 2007 Chuetsu-oki, Niigata, Japan, earthquake Waveform inversion using empirical Green s functions


Comparison of Long-Period Ground Motions in the Kanto Basin during the 2004 Niigata Chuetsu and the 2011 Fukushima Hamado ri Earthquakes

Study of the liquefaction phenomenon due to an earthquake: case study of Urayasu city

HISTORY OF HEAVY RAINFALL DISASTER INFORMATION IN JAPAN

Long-period ground motion characterization by cross wavelet transform

ANALYTIC STUDIES OF THE MAXIMUM DISPLACEMENTS OF SEISMIC ISOLATION UNDER MANY OBSERVED STRONG EARTHQUAKES

National Report on Weather Forecasting Service

A Prototype of Strong Ground Motion Prediction Procedure for Intraslab Earthquake based on the Characterized Source Model

Practical Use of the Earthquake Early Warning (EEW) System for Shinkansen

Estimation of local site effects in Ojiya city using aftershock records of the 2004 Mid Niigata Prefecture earthquake and microtremors

Preliminary report of the 2011 off the Pacific coast of Tohoku Earthquake *

The Japanese University Joint Seismic Observations at the Niigaka-Kobe Tectonic Zone

by A. Nozu and K. Irikura Introduction

Estimation of Seismic Shutoff of Intelligent Gas Meters in the Tokyo Metropolitan Area

EFFECTIVE STRESS ANALYSES OF TWO SITES WITH DIFFERENT EXTENT OF LIQUEFACTION DURING EAST JAPAN EARTHQUAKE

The Slapdown Phase in High Acceleration Records of Large Earthquakes

Effect of the Emperor seamounts on trans-oceanic propagation of the 2006 Kuril Island earthquake tsunami

Effects of Surface Geology on Seismic Motion

Nonlinear site response from the 2003 and 2005 Miyagi-Oki earthquakes

Study of Sand Boiling Characteristics Along Tokyo Bay During The 2011 Tohoku-Pacific Ocean Earthquake

Field Investigation and Dynamic Analysis of Damaged Structure on Pile Foundation during the 2011 off the Pacific Coast of Tohoku Earthquake

Earthquake record from down-hole array observation in Tokyo bay area during the 2011 off the pacific coast of Tohoku earthquake

MULTI-DIMENSIONAL VS-PROFILING WITH MICROTREMOR H/V AND ARRAY TECHNIQUES

GIS present situation in Japan

PREDICTION OF AVERAGE SHEAR-WAVE VELOCITY FOR GROUND SHAKING MAPPING USING THE DIGITAL NATIONAL LAND INFORMATION OF JAPAN

SEISMIC HAZARD ASSESSMENT FOR JAPAN AFTER THE 2011 TOHOKU-OKI MEGA-THRUST EARTHQUAKE (Mw9.0)

EARTHQUAKE RELATED PROJECTS IN NIED, JAPAN. Yoshimitsu Okada NIED (National Research Institute for Earth Science and Disaster Prevention), Japan

Estimation of Deep Shear-Wave Velocity Profiles in Lima, Peru, Using Seismometers Arrays

Exploring the feasibility of on-site earthquake early warning using close-in records of the 2007 Noto Hanto earthquake

LONG-PERIOD GROUND MOTION SIMULATION OF OSAKA SEDIMENTARY BASIN FOR A HYPOTHETICAL NANKAI SUBDUCTION EARTHQUAKE

MODELING OF HIGH-FREQUENCY WAVE RADIATION PROCESS ON THE FAULT PLANE FROM THE ENVELOPE FITTING OF ACCELERATION RECORDS

History of International Training in Seismology and Earthquake Engineering at IISEE

3D Seismic Hazard and Risk Maps for Earthquake Awareness of Citizens with Aids of GIS and Remote Sensing Technologies

2011/3/11 14:46, Depth 24km, M9.0 (JMA)

BC Smart Infrastructure Monitoring System (BCSIMS)

Complicated repeating earthquakes on the convergent plate boundary: Rupture processes of the 1978 and 2005 Miyagi-ken Oki earthquakes

CONSTRUCTION OF A DATA BASE SYSTEM FOR IRRIGATION DAMS

Development and Implementation of the Japanese Enhanced Fujita Scale

RELATIONSHIP BETWEEN DAMAGE RATIO OF EXPRESSWAY EMBANKMENT AND SEISMIC INTENSITY IN THE 2004 MID-NIIGATA EARTHQUAKE

Effects of Surface Geology on Seismic Motion

RELEASE OF THE GLOBAL MAP DATA SET VERSION 1.

REPRODUCTION OF A LARGE-SCALE 1G TEST ON UNSATURATED SAND DEPOSITS AND PILE FOUNDATIONS USING CENTRIFUGE MODELING

THEORETICAL EVALUATION OF EFFECTS OF SEA ON SEISMIC GROUND MOTION

ANALYTICAL STUDY ON RELIABILITY OF SEISMIC SITE-SPECIFIC CHARACTERISTICS ESTIMATED FROM MICROTREMOR MEASUREMENTS

The IISEE earthquake catalog, Catalog of Damaging Earthquakes in the World, IISEE-NET,, and BRI strong motion observation

ESTIMATION OF SITE AMPLIFICATION FACTORS USING STRONG MOTION RECORDS OF HOKKAIDO

Outline of the 2011 off the Pacific coast of Tohoku Earthquake (M w 9.0) Earthquake Early Warning and observed seismic intensity

STUDY ON MICROTREMOR CHARACTERISTICS BASED ON SIMULTANEOUS MEASUREMENTS BETWEEN BASEMENT AND SURFACE USING BOREHOLE

Prevention Tsunami wall 10m high (breached by the tsunami due to land level falling by 3m)

Transcription:

Journal of Japan Association for Earthquake Engineering, Vol.4, No.3(Special Issue), 2004 CURRENT STATUS OF STRONG-MOTION EARTHQUAKE OBSERVATION IN JAPANESE PORTS Atsushi NOZU 1 1 Senior Researcher, Geotechnical and Structural Engineering Department, Port and Airport Research Institute, Yokosuka, Japan, nozu@pari.go.jp ABSTRACT: Strong ground motions and the response of structures have been observed in the major ports in Japan for more than 40 years. The network now covers the entire coastline of Japan with 110 accelerographs in 60 ports. This article describes the current status of the network, some findings from recent observations and data availability. Key Words: port, strong ground motion, observation, acceleration, annual reports, CD-ROM, ASCII data, website INTRODUCTION The Strong-Motion Earthquake Observation in Japanese Ports started in 1962 with eleven SMAC-B2 accelerographs installed at ports in Japan, including Yokohama, Shimizu, Nagoya, Kobe and Kagoshima. The first record was obtained on March 27, 1963 in the Port of Nagoya. Since then, the observation has been conducted based on the collaboration between the Port and Harbour Research Institute (PHRI), the Ministry of Transport, and relevant regional port offices of the central or local governments. The regional offices have been in charge of the maintenance of the accelerographs, while the research institute has been in charge of data collection, correction, analysis and storage. The network expanded gradually and 110 accelerographs had been installed in 60 ports as of March 2004. In April 2001, PHRI was succeeded by two institutes, namely, the Independent Administrative Institution Port and Airport Research Institute (PARI) and the National Institute for Land and Infrastructure Management (NILIM). Both institutes are involved in the Strong-Motion Earthquake Observation in Japanese Ports. PARI is in charge of data collection, correction, analysis and storage. PARI also publishes annual reports on the observations, recent versions of which include a CD-ROM including digital data from the network. NILIM developed a website for domestic users (www.eq.ysk.nilim.go.jp) from which all the digital data from the network since 1963 can be downloaded. This article briefly describes the current status of the network. CURRENT NETWORK The Strong-Motion Earthquake Observation in Japanese Ports covers the entire coastline of Japan with 110 accelerographs in 60 ports, as shown in Fig.1, as of March 2004. The network consists of 85 ERS-F/G/GV accelerographs and 25 SMAC-MDU accelerographs, all of which are digital instruments. The network consists of three kinds of stations; the first to record accelerations on the ground surface, the second to record accelerations in the ground by using bore-holes and the third to record the - 79 -

earthquake response of structures such as quay walls or gantry cranes. A station that records the earthquake response of a structure is always accompanied by another station which records ground accelerations in its vicinity. Currently 67 accelerographs out of 110 are installed on the ground, 33 in the ground using bore-holes and the remaining 10 on structures such as quay walls or gantry cranes. Most of the accelerographs are connected to a telephone line (NTT-ISDN digital data transfer line) and an on-line data transfer system between the stations and the Port and Airport Research Institute in Yokosuka is available. This on-line system contributes not only to rapid acquisition of data but also to reduction of maintenance cost at regional offices because the staffs at PARI can monitor the conditions of accelerographs. For more information including the types of accelerographs and installation conditions, refer to the CD-ROM attached to the annual reports (e.g., Nozu et al. 2003). Soil profiles at the stations are also available on the CD. Fig. 1 Current network of the Strong-Motion Earthquake Observation in Japanese Ports - 80 -

Reproduction of predominant periods SOME FINDINGS FROM RECENT OBSERVATIONS The predominant period of earthquake ground motion is site-dependent. Examples from recent observations in Japanese ports are shown in Fig.2. In the Port of Hachinohe, Fourier spectra from both the 1968 Tokachi-oki earthquake (M J =7.9) and the 1994 Sanriku Haruka-oki earthquake (M J =7.5) are characterized by a peak at 2.5 seconds. In the Port of Kushiro, Fourier spectra from both the 1993 Kushiro-oki earthquake (M J =7.9) and the 2003 Tokachi-oki earthquake (M J =8.0) are characterized by peaks at 1.0-2.0 seconds. These observations emphasize how important it is to adopt a design ground motion that appropriately reflects site characteristics. Fig. 2 Reproduction of predominant periods in the records from Japanese ports Amplification at longer periods Due to rapid developments of various strong-motion networks including K-NET in Japan, it is now easy to compare the records from different networks. Because ports are positioned along the coastline, ther are often located on thick sediments. There is a tendency, therefore, for stations in ports to have larger amplifications at periods longer than 1 second relative to stations from other networks. As an example, Fig.3 shows site amplification factors at stations from various networks in the former Shimizu City, Japan, relative to ERI on sandstone. It can be clearly seen that stations at the port (KJO and MHO) show the largest amplifications at periods longer than 1 second. Thus it is clear that even the most recent networks including K-NET are not dense enough to resolve site characteristics. For the purpose of evaluating site amplifications appropriately, circulation of records from different organizations is essential. - 81 -

Fig. 3 Locations of stations in former Shimizu City, Japan (left) and site amplification factors (right) DATA AVAILABILITY Records from the Strong-Motion Earthquake Observation in Japanese Ports have been published as annual reports from PHRI (1962-1998) (e.g., Tsuchida et al. 1968) and PARI (1999-). Annual reports since 1976 contain computer plots of original and corrected accelograms, integrated velocities, displacements, Fourier spectra and response spectra (e.g., Kurata et al. 1978). These time histories and spectra were obtained based on the procedure described in Iai et al. (1978). Special reports were also published when disastrous earthquakes occurred (e.g., Tsuchida et al, 1969). Recent annual reports from PARI (e.g., Nozu et al. 2003) have been published with a CD-ROM, which contains all the ASCII data of the original and corrected accelerograms obtained in the previous year. Although the printed portion of these reports is in Japanese, the contents of the CD-ROM are in both Japanese and English. Accelerograms are available on the CD in user-friendly CSV format. In April, 2002, NILIM developed a website (www.eq.ysk.nilim.go.jp) from which all the digital data from the network since 1963 can be downloaded. As the website was developed for domestic users, contents are only in Japanese. The development of a website for international users is under consideration. ACKNOWLEDGMENTS The author would like to thank the Earthquake Research Institute (ERI) of the University of Tokyo, the National Research Institute for Earth Science and Disaster Prevention (NIED), the Building Research Institute (BRI) and the Japan Meteorological Agency (JMA) for providing the strong-motion data. REFERENCES Iai, S., Kurata, E. and Tsuchida, H. (1978). Digitization and Correction of Strong-Motion Accelerograms. Technical Note of the Port and Harbour Research Institute, No.286. Kurata, E., Iai, S. and Tsuchida, H. (1978). Annual report on strong-motion earthquake records in Japanese ports (1976 and 1977). Technical Note of the Port and Harbour Research Institute, No.287. Nozu, A., Sato, Y., Fukazawa, K., Sato, Y. and Sugano, T. (2003). Annual report on strong-motion earthquake records in Japanese ports (2002). Technical Note of the Port and Airport Research Institute, No.1054. - 82 -

Tsuchida, H., Yamada, T., Kurata, E. and Sudo, K. (1968). Annual report on strong-motion earthquake records in Japanese ports (1963 and 1964). Technical Note of the Port and Harbour Research Institute, No.55. Tsuchida, H., Kurata, E. and Sudo, K. (1969). Strong-Motion Earthquake Records on the 1968 Tokachi-Oki Earthquake and Its Aftershocks. Technical Note of the Port and Harbour Research Institute, No.80. (Submitted: March 31, 2004) (Accepted: July 3, 2004) Copyright JAEE - 83 -

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback