论文信息 - A comparison of τc and τpmax for magnitude estimation in earthquake early warning

A comparison of τc and τpmax for magnitude estimation in earthquake early warning

[1] We determined the τc and τpmax parameters from the K-NET strong motion records of 16 earthquakes in Japan with moment magnitude (Mw) ranging from 6.0 to 8.3. A 0.075 Hz high-pass Butterworth filter was applied for determination of τc based on our previous studies. It was found that different pole selections of the Butterworth filter lead to different uncertainty in magnitude determination. Our results show that using two poles in the filters results in the best magnitude estimates, i.e., minimized the standard deviation in magnitude determination in comparison to Mw using τc. The τpmax parameters (Allen and Kanamori, 2003) were also determined with the same dataset using the Wurman et al. (2007) procedure. It was found that τpmax values obtained from this dataset, and using the Wurman procedure, had a larger uncertainty. However, when a 0.075 Hz high-pass Butterworth filter with five poles was added, the uncertainty in τpmax-derived magnitude estimates decreased minimizing the standard deviation in magnitude determination using τpmax. This difference in the behavior of τc and τpmax can be used to further reduce the uncertainty in rapid magnitude determination for earthquake early warning. When the magnitude estimations from τc and τpmax of each event are averaged to provide a new magnitude estimate, the standard deviation in magnitude estimates is reduced further to 0.27 magnitude units.

[1] Richard M. Allen,et al. The deterministic nature of earthquake rupture , 2005, Nature.

[2] Hiroo Kanamori,et al. Rapid Assessment of Damage Potential of Earthquakes in Taiwan from the Beginning of P Waves , 2005 .

[3] Hiroo Kanamori,et al. Exploring the feasibility of on-site earthquake early warning using close-in records of the 2007 Noto Hanto earthquake , 2008 .

[4] P. Rydelek,et al. Earth science: Is earthquake rupture deterministic? , 2006, Nature.

[5] Wen-Tzong Liang,et al. Magnitude determination using initial P waves: A single‐station approach , 2006 .

[6] H. Kanamori,et al. The Potential for Earthquake Early Warning in Southern California , 2003, Science.

[7] Hiroo Kanamori,et al. Real-Time Seismology and Earthquake Damage Mitigation , 2005 .

[8] Walter H. F. Smith,et al. Free software helps map and display data , 1991 .

[9] Yih-Min Wu,et al. Development of an Earthquake Early Warning System Using Real-Time Strong Motion Signals , 2008, Sensors.

[10] Richard M. Allen,et al. Toward earthquake early warning in northern California , 2006 .

[11] Hiroo Kanamori,et al. Experiment on an Onsite Early Warning Method for the Taiwan Early Warning System , 2005 .

[12] Richard M. Allen,et al. Short Note The Potential for Earthquake Early Warning in Italy Using ElarmS , 2008 .

[13] Richard M. Allen,et al. Determination of earthquake early warning parameters, τ c and Pd, for southern California , 2007 .