Abstract
We report here the recent progress and future development of real-time seismic monitoring in Taiwan, especially on earthquake early warning system (EWS) developed at the Central Weather Bureau (CWB), using the telemetered signals from strong-motion instruments. Utilizing a quick magnitude determination based on the first 10 sec of signals from a virtual and sub-network which is configured automatically, we were able to reduce the earthquake rapid reporting time to about 30 sec or less. This represents a significant step towards a more realistic earthquake early warning capability. This early warning system has been in operation at CWB since 2002. Comprehensive earthquake reports have been issued mostly in less than 30 sec, with an average of about 22 sec from the origin time. At 3 km/sec for a typical crustal shear-wave velocity, the present operation is not useful if an earthquake occurs less than about 70 km from a city, but the lead time will increase to more than 10 sec for cities at distances greater than 100 km from the earthquake source. In the latter case, a lead time of several seconds will allow pre-programmed emergency response to take place prior to the arrival of strong ground shaking. In order to offer earlier warning within an epicentral distance of less than 70 km, a τc and Pd method was experimented. We used the Taiwan Strong-Motion Instrumentation Program (TSMIP) accelerograms recorded within epicentral distances of less than 30 km from Mw > 5.0 crustal earthquakes. This method uses the first 3-sec length records from the onset of P-waves and could issue an on-site early warning within 10 sec after the event origin time, reducing the radius of the blind zone from 70 to 25 km from the epicenter.
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References
Allen R, Kanamori H (2003) The potential for earthquake early warning in South California. Science 300:786–789
Cooper JD (1868) Letter to Editor. San Francisco Daily Evening Bulletin, Nov. 3, 1868
Espinosa-Aranda J, Jiménez A, Ibarrola G, Alcantar F, Aguilar A, Inostroza M, Maldonado S (1995) Mexico City seismic alert system. Seism Res Lett 66: 42–53
Grecksch G, Kumpel HJ (1997) Statistical analysis of strong-motion accelerogram and it application to earthquake early-warning systems. Geophys J Int 129:113–123
Heaton TH (1985) A model for a seismic computerized alert network. Science 228:987–990
Hsiao NC, Lee WHK, Shin TC, Teng TL, Wu YM (2005) Earthquake rapid reporting and early warning systems at CWB in Taiwan. Poster presentation, Earthquake Early Warning System Workshop, July 13–15, 2005 at the California Institute of Technology, Pasadena, California (website address: http://www.seismolab.caltech.edu/early.html)
Hsu M T (2003) Seismological observation and service in Taiwan (up to 1970). In: Lee WHK, Kanamori H, Jennings PC, Kisslinger C (eds) International Handbook of Earthquake and Engineering Seismology, Part B, CD#2/79_15China(Taipei)/Tai70Hist.pdf, Academic Press, Amsterdam
Kanamori H (2003) Earthquake prediction: an overview. In: Lee WHK, Kanamori H, Jennings PC, Kisslinger C (eds) International Handbook of Earthquake and Engineering Seismology, Part B, pp 1205–1216, Academic Press, Amsterdam
Kanamori H (2005) Real-time seismology and earthquake damage mitigation. Annual Review of Earth and Planetary Sciences 33:5.1–5.20, doi: 10.1146
Kanamori H, Hauksson E, Heaton T (1997) Real-time seismology and earthquake hazard mitigation. Nature 390:461–464
Lee WHK (1995) A project implementation plan for an advanced earthquake monitoring system. Research Report of the Central Weather Bureau, Taipei, Taiwan, R.O.C., No. 448, 411 pp
Lee WHK, Espinosa-Aranda JM (2003). Earthquake early warning systems: Current status and perspectives. In: Zschau J, Kuppers AN (eds) Early Warning Systems for Natural Disaster Reduction, pp 409–423, Springer, Berlin
Lee WHK, Ma KF, Teng TL, Wu YM (2005) A proposed plan for integrating earthquake and tsunami warning at CWB in Taiwan. Poster presentation, Earthquake Early Warning System Workshop, July 13–15, 2005 at the California Institute of Technology, Pasadena, California (website address: http://www.seismolab.caltech.edu/early.html)
Lee WHK, Shin TC, Teng TL (1996) Design and implementation of earthquake early warning systems in Taiwan. Proc. 11th World Conf. Earthq. Eng., Paper No. 2133
Nakamura Y (1988) On the urgent earthquake detection and alarm system (UrEDAS). Proc. of the 9th world conference on earthquake engineering, Tokyo-Kyoto, Japan
Shin TC, Teng TL (2001) An overview of the 1999 Chi-Chi, Taiwan, earthquake. Bull Seism Soc Am 91:895–913
Teng TL, Tsai YB, Lee WHK (2001) Preface to the 1999 Chi-Chi, Taiwan, Earthquake Dedicated Issue. Bull Seism Soc Am 91:893–894
Teng TL, Wu YM, Shin TC, Lee WHK, Tsai YB, Liu CC, Hsiao NC (2005) Development of earthquake rapid reporting and early warning systems in Taiwan. Oral presentation, Earthquake Early Warning System Workshop, July 13–15, 2005 at the California Institute of Technology, Pasadena, California (website address: http://www.seismolab.caltech.edu/early.html)
Teng TL, Wu YM, Shin TC, Tsai YB, Lee WHK (1997) One minute after: strong-motion map, effective epicenter, and effective magnitude. Bull Seism Soc Am 87:1209–1219
United States Geological Survey (1998) A plan for implementing a real-time seismic hazard warning system — A report to congress required by public law 105–47. March 27, 1998, USA
Wu YM, Kanamori H (2005a) Rapid assessment of damaging potential of earthquakes in Taiwan from the beginning of P Waves. Bull Seism Soc Am 95:1181–1185
Wu YM, Kanamori H (2005b) Experiment on an onsite early warning method for the Taiwan early warning system. Bull Seism Soc Am 95:347–353
Wu YM, Teng TL (2002) A virtual sub-network approach to earthquake early warning. Bull Seism Soc Am 92:2008–2018
Wu YM, Zhao L (2006) Magnitude estimation using the first three seconds P-wave amplitude in earthquake early warning. Geophys Res Lett 33:L16312
Wu YM, Chen CC, Shin TC, Tsai YB, Lee WHK, Teng TL (1997) Taiwan Rapid Earthquake Information Release System. Seism Res Lett 68:931–943
Wu YM, Shin TC, Tsai YB (1998) Quick and reliable determination of magnitude for seismic early warning. Bull Seism Soc Am 88:1254–1259
Wu YM, Chung JK, Shin TC, Hsiao NC, Tsai YB, Lee WHK, Teng TL (1999) Development of an integrated seismic early warning system in Taiwan — case for the Hualien area earthquakes. TAO 10:719–736
Wu YM, Hsiao NC, Teng TL, Shin TC (2002) Near real-time seismic damage assessment of the rapid reporting system. TAO 13;313–324
Wu YM, Teng TL, Shin TC, Hsiao NC (2003) Relationship between peak ground acceleration, peak ground velocity, and intensity in Taiwan. Bull Seism Soc Am 93:386–396
Wu YM, Kanamori H, Allen RM, Hauksson E (2006a) Experiment using the τc and Pd method for earthquake early warning in Southern California. Submitted to Geophysical Journal International
Wu YM, Yen HY, Zhao L, Huang BS, Liang WT (2006b) Magnitude determination using initial P waves: A single-station approach. Geophys Res Lett 33:L05306
Yu SB, Kuo LC, Punongbayan RS, Ramos EG (1999) GPS observation of crustal deformation in the Taiwan-Luzon region. Geophys Res Lett 26:923–926
Zschau J, Kuppers AN (eds) (2003) Early Warning Systems for Natural Disaster Reduction. Springer, Berlin, 834 pp
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Wu, YM., Hsiao, NC., Lee, W.H.K., Teng, Tl., Shin, TC. (2007). State of the Art and Progress in the Earthquake Early Warning System in Taiwan. In: Gasparini, P., Manfredi, G., Zschau, J. (eds) Earthquake Early Warning Systems. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-72241-0_14
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