Presentation is loading. Please wait.

Presentation is loading. Please wait.

Sarah E. Minson California Institute of Technology Benjamin A. Brooks, Jessica R. Murray U.S. Geological Survey Susan E. Owen Jet Propulsion Laboratory.

Published byAmie Evans Modified over 9 years ago

Similar presentations

Presentation on theme: "Sarah E. Minson California Institute of Technology Benjamin A. Brooks, Jessica R. Murray U.S. Geological Survey Susan E. Owen Jet Propulsion Laboratory."— Presentation transcript:

1 Sarah E. Minson California Institute of Technology Benjamin A. Brooks, Jessica R. Murray U.S. Geological Survey Susan E. Owen Jet Propulsion Laboratory Robert A. Iannucci Carnegie Mellon University – Silicon Valley

2 EEW and real-time GPS are expanding globally Most high-risk areas still not covered RT GPS EEWEEW

3 Requires dense networks of scientific instruments Expensive to build and maintain Scientific GPS: $1,000-$7,500 per year, per station Many high-risk areas cannot afford this investment RT GPS EEWEEW

4 Consumer electronics contain geophysical sensors Smartphones, laptops, tablets, cars What if we could monitor earthquakes with just consumer-quality sensors? RT GPS EEWEEW

5 This is not what you get from scientific instruments Pseudorange only (no phase information) Single frequency (coarse acquisition) vs. dual frequency Broadcast orbits

6 Post-processed scientific GPS PseudorangePseudorange

7

8 NorthNorthUpUpEastEast StaticStatic PseudorangePseudorange

9 Count number of stations for which they and their 4 closest neighbors have offsets greater than threshold

10

11 5  excursion from background

12 Displacement amplitude decays with distance Power law fit to observed offsets

13 S-wave reaches population center 5  exceeded

14

15 EEWEEW True Mw NEIC/PTWCNEIC/PTWC PseudorangePseudorange

16

17

18 If we wanted to replace GPS network with iPads: 500 stations @ $100 = $50,000 About the cost of installing 1-2 permanent GPS stations To replace GPS network with equal noise: 2,000 stations @ $100 = $200,000

19 We could build a workable early warning network for orders of magnitude less cost… …But really we don’t want to be responsible for the network

20 We should be using the GPS receivers people already own and maintain Significantly noisier (bad sky view, noisy environment) Potentially orders of magnitude more sensors Marginal cost to build and maintain Built-in way to track location and customize warnings Citizen science

21 Scientific GPS: Mw 8.9 Best Slip Model: Mw 9.1 Pseudorange: Mw 8.9

22 Seismic EEW Scientific GPS NEIC/PTWCNEIC/PTWC PseudorangePseudorange True Mw What we are doing What we could do in western U.S. A way forward everywhere else

23

Download ppt "Sarah E. Minson California Institute of Technology Benjamin A. Brooks, Jessica R. Murray U.S. Geological Survey Susan E. Owen Jet Propulsion Laboratory."

Similar presentations

Sarah Minson California Institute of Technology. Sarah E. Minson California Institute of Technology Jessica R. Murray, John O. Langbein, Joan S. Gomberg.

Sarah Minson California Institute of Technology. Sarah E. Minson California Institute of Technology Jessica R. Murray, John O. Langbein, Joan S. Gomberg.
PROGRAMME VI. MATERIAL-TECHNICAL EQUIPPING AND INSTITUTIONAL DEVELOPMENT OF STATE SERVICES PRESENTED BY THE INSTITUTE SEISMOLOGY OF ACADEMY SCIENCES OF.

PROGRAMME VI. MATERIAL-TECHNICAL EQUIPPING AND INSTITUTIONAL DEVELOPMENT OF STATE SERVICES PRESENTED BY THE INSTITUTE SEISMOLOGY OF ACADEMY SCIENCES OF.
June 12-14, 2013, Ottawa, Canada From dual- to triple-frequency PPP: method, problems and application in California Jianghui Geng, Yehuda Bock Scripps.

June 12-14, 2013, Ottawa, Canada From dual- to triple-frequency PPP: method, problems and application in California Jianghui Geng, Yehuda Bock Scripps.
1 U.S. Department of the Interior U.S. Geological Survey Earthquake Monitoring and Reporting through the Advanced National Seismic System Briefing for.

1 U.S. Department of the Interior U.S. Geological Survey Earthquake Monitoring and Reporting through the Advanced National Seismic System Briefing for.
Earthquake Early Warning Research and Development in California, USA Hauksson E., Boese M., Heaton T., Seismological Laboratory, California Institute of.

Earthquake Early Warning Research and Development in California, USA Hauksson E., Boese M., Heaton T., Seismological Laboratory, California Institute of.
Instituto de Meteorologia, I.P. Department of Seismic and Geophysical Monitoring NEAREST 1 st Meeting, Bologna, October 2006.

Instituto de Meteorologia, I.P. Department of Seismic and Geophysical Monitoring NEAREST 1 st Meeting, Bologna, October 2006.
Tom Heaton Caltech Geophysics and Civil Engineering.

Tom Heaton Caltech Geophysics and Civil Engineering.
Wanted: Amateurs to help track earthquakes Teresa Diaz.

Wanted: Amateurs to help track earthquakes Teresa Diaz.
Integrated Analyses for Monitoring and Rapid Source Modeling of Earthquakes and Tsunamis Brendan Crowell Subduction Zone Observatory Seminar May 13, 2015.

Integrated Analyses for Monitoring and Rapid Source Modeling of Earthquakes and Tsunamis Brendan Crowell Subduction Zone Observatory Seminar May 13, 2015.
UNCLASSIFIED U.S. GEOLOGICAL SURVEY Southern California Seismic Network (USGS/SCSN) Prepared by Gary Cone.

UNCLASSIFIED U.S. GEOLOGICAL SURVEY Southern California Seismic Network (USGS/SCSN) Prepared by Gary Cone.
Average properties of Southern California earthquake ground motions envelopes… G. Cua, T. Heaton Caltech.

Average properties of Southern California earthquake ground motions envelopes… G. Cua, T. Heaton Caltech.
FALL 2004EASA-130 Seismology and Nuclear Explosions 1 Earthquakes as Seismic Sources Lupei Zhu.

FALL 2004EASA-130 Seismology and Nuclear Explosions 1 Earthquakes as Seismic Sources Lupei Zhu.
Sri Lanka Earthquake & Tsunami Warning Training Program Session III.3 Global and Local Arrays May 10, 2006 Jakarta, Indonesia.

Sri Lanka Earthquake & Tsunami Warning Training Program Session III.3 Global and Local Arrays May 10, 2006 Jakarta, Indonesia.
Introduction to GPS GLY 560: GIS for Earth Scientists.

Introduction to GPS GLY 560: GIS for Earth Scientists.
Fault Slip Sensors and DamageMap: GPS in Rapid Earthquake Response Systems Ken Hudnut USGS, Pasadena.

Fault Slip Sensors and DamageMap: GPS in Rapid Earthquake Response Systems Ken Hudnut USGS, Pasadena.
1 Earthquake Magnitude Measurements for Puerto Rico Dariush Motazedian and Gail M. Atkinson Carleton University.

1 Earthquake Magnitude Measurements for Puerto Rico Dariush Motazedian and Gail M. Atkinson Carleton University.
New Scientific Applications with Existing CGPS Capabilities Earthquakes, Soil Moisture, and Environmental Imaging Andria Bilich Geosciences Research Division.

New Scientific Applications with Existing CGPS Capabilities Earthquakes, Soil Moisture, and Environmental Imaging Andria Bilich Geosciences Research Division.
Seismicity around Lhasa Tsoja Wangmo 1), Norsang Gelsor 1) and Jens Havskov 2) 1) Jiangsu Road No 36 Lhasa, Tibet, PRC 2) University of Bergen, Department.

Seismicity around Lhasa Tsoja Wangmo 1), Norsang Gelsor 1) and Jens Havskov 2) 1) Jiangsu Road No 36 Lhasa, Tibet, PRC 2) University of Bergen, Department.
1 Earthquake Magnitude Measurements for Puerto Rico Dariush Motazedian and Gail M. Atkinson.

1 Earthquake Magnitude Measurements for Puerto Rico Dariush Motazedian and Gail M. Atkinson.
Please download animations in the file format of your choice (MPG format is recommended because AVI files are much larger than MPG) August 2010 slow-slip.

Please download animations in the file format of your choice (MPG format is recommended because AVI files are much larger than MPG) August 2010 slow-slip.

Similar presentations

Ads by Google