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Type of Document Dissertation Author Cua, Georgia B. URN etd-02092005-125601 Persistent URL http://resolver.caltech.edu/CaltechETD:etd-02092005-125601 Title Creating the Virtual Seismologist: developments in ground motion characterization and seismic early warning Degree PhD Option Civil Engineering with minor in Geophysics Advisory Committee
Advisor Name Title James L. Beck Committee Chair Egill Hauksson Committee Member Hiroo Kanamori Committee Member Thomas H. Heaton Committee Member Keywords
- emergency response
- Voronoi cells
- real-time seismology
- linear discriminant analysis
- Bayes Theorem
Date of Defense 2004-12-02 Availability unrestricted Abstract The Virtual Seismologist method for earthquake early warning uses a Bayesian approach to find the most probable magnitude and location estimates given the incoming ground motions envelopes from a rupturing earthquake. Ground motion ratios and ground motion envelope attenuation relationships are used to estimate magnitude and epicentral location as early as 3 seconds after the initial P wave detection. The use of prior information distinguishes this method from other proposed methods for seismic early warning. The state of health of the seismic network, previously observed seismicity, fault locations, and the Gutenberg-Richter relationship are the types of prior information useful in resolving trade-offs in the initial source estimates which are unresolved by the limited data. Short-term earthquake forecasts are ideal priors for seismic early warning.
Having a high density of stations with real-time telemetry reduces the complexity involved in finding the most probable source estimates and communicating these estimates to early warning subscribers. The benefits of prior information are most evident for regions with low station density. Most early warning studies are focused exclusively on either the source estimation problem, or how subscribers use the warning information. The inclusion of prior information ultimately requires a level of coordination and communication between the network broadcasting the early warning information and the subscribers that is not consistent with this divide. The need for a more integrated approach to seismic early warning which considers the source estimation and user response as interacting and interrelated parts of a single problem is discussed.
A parameterization that decomposes observed ground motion envelopes into P-wave, S-wave, and ambient noise envelopes is developed and applied to a large suite of observed ground motion envelopes recorded within 200 km of 2.0 < M < 7.3 Southern California earthquakes. Separate attenuation relationships are developed to describe the magnitude, distance, and site dependence of various channels of P- and S-wave envelopes. The P-wave relationships allow the early warning source estimates to be obtained from observed P-wave amplitudes. Aside from early warning applications, these envelope attenuation relationships are used to investigate the average properties of ground motions recorded by the Southern California Seismic Network. Station-specific amplification factors for 150 Southern California Seismic Network stations were obtained for horizontal and vertical acceleration, velocity, and displacement amplitudes, and are included (Excel format) as external multimedia objects.
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28.8 Modem 56K Modem ISDN (64 Kb) ISDN (128 Kb) Higher-speed Access 01gcua_acknow.pdf 73.99 Kb 00:00:20 00:00:10 00:00:09 00:00:04 < 00:00:01 02gcua_abstract.pdf 51.38 Kb 00:00:14 00:00:07 00:00:06 00:00:03 < 00:00:01 03gcua_toc.pdf 94.63 Kb 00:00:26 00:00:13 00:00:11 00:00:05 < 00:00:01 04gcua_listfigs.pdf 158.78 Kb 00:00:44 00:00:22 00:00:19 00:00:09 < 00:00:01 05gcua_listtabs.pdf 57.95 Kb 00:00:16 00:00:08 00:00:07 00:00:03 < 00:00:01 06gcua_chapter1.pdf 183.60 Kb 00:00:50 00:00:26 00:00:22 00:00:11 < 00:00:01 07gcua_chapter2.pdf 2.77 Mb 00:12:50 00:06:36 00:05:46 00:02:53 00:00:14 08gcua_chapter3.pdf 6.38 Mb 00:29:32 00:15:11 00:13:17 00:06:38 00:00:34 09gcua_chapter4.pdf 2.09 Mb 00:09:41 00:04:59 00:04:21 00:02:10 00:00:11 10gcua_chapter5.pdf 1.18 Mb 00:05:27 00:02:48 00:02:27 00:01:13 00:00:06 11gcua_chapter6.pdf 1.47 Mb 00:06:47 00:03:29 00:03:03 00:01:31 00:00:07 12gcua_chapter7.pdf 1.18 Mb 00:05:26 00:02:48 00:02:27 00:01:13 00:00:06 13gcua_chapter8.pdf 1.01 Mb 00:04:41 00:02:24 00:02:06 00:01:03 00:00:05 14gcua_chapter9.pdf 381.07 Kb 00:01:45 00:00:54 00:00:47 00:00:23 00:00:02 15gcua_chapter10.pdf 149.96 Kb 00:00:41 00:00:21 00:00:18 00:00:09 < 00:00:01 16gcua_bibl.pdf 92.86 Kb 00:00:25 00:00:13 00:00:11 00:00:05 < 00:00:01 17gcua_appendixA.pdf 521.96 Kb 00:02:24 00:01:14 00:01:05 00:00:32 00:00:02 18gcua_appendixB.pdf 62.71 Kb 00:00:17 00:00:08 00:00:07 00:00:03 < 00:00:01 19gcua_appendixC.pdf 133.43 Kb 00:00:37 00:00:19 00:00:16 00:00:08 < 00:00:01 20gcua_appendixD.pdf 115.90 Kb 00:00:32 00:00:16 00:00:14 00:00:07 < 00:00:01 21gcua_appendixE.pdf 1.25 Mb 00:05:46 00:02:58 00:02:35 00:01:17 00:00:06 22gcua_appendixF.pdf 923.52 Kb 00:04:16 00:02:11 00:01:55 00:00:57 00:00:04 23gcua_appendixG.pdf 186.23 Kb 00:00:51 00:00:26 00:00:23 00:00:11 < 00:00:01 ENU.a.rock.PS.stacorr.xls 13.31 Kb 00:00:03 00:00:01 00:00:01 < 00:00:01 < 00:00:01 ENU.a.soil.PS.stacorr.xls 55.30 Kb 00:00:15 00:00:07 00:00:06 00:00:03 < 00:00:01 ENU.d.rock.PS.stacorr.xls 22.02 Kb 00:00:06 00:00:03 00:00:02 00:00:01 < 00:00:01 ENU.d.soil.PS.stacorr.xls 48.64 Kb 00:00:13 00:00:06 00:00:06 00:00:03 < 00:00:01 ENU.v.rock.PS.stacorr.xls 22.02 Kb 00:00:06 00:00:03 00:00:02 00:00:01 < 00:00:01 ENU.v.soil.PS.stacorr.xls 55.30 Kb 00:00:15 00:00:07 00:00:06 00:00:03 < 00:00:01 Z.a.rock.PS.stacorr.xls 22.02 Kb 00:00:06 00:00:03 00:00:02 00:00:01 < 00:00:01 Z.a.soil.PS.stacorr.xls 54.78 Kb 00:00:15 00:00:07 00:00:06 00:00:03 < 00:00:01 Z.d.rock.PS.stacorr.xls 22.02 Kb 00:00:06 00:00:03 00:00:02 00:00:01 < 00:00:01 Z.d.soil.PS.stacorr.xls 54.78 Kb 00:00:15 00:00:07 00:00:06 00:00:03 < 00:00:01 Z.v.rock.PS.stacorr.xls 22.02 Kb 00:00:06 00:00:03 00:00:02 00:00:01 < 00:00:01 Z.v.soil.PS.stacorr.xls 54.78 Kb 00:00:15 00:00:07 00:00:06 00:00:03 < 00:00:01