improved warnings for natural hazards: a prototype system ...improved warnings for natural hazards:...
TRANSCRIPT
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Improved Warnings for Natural Hazards: A Prototype System for Southern California
Yehuda BockResearch Geodesist
Scripps Institution of OceanographyUniversity of California San Diego, La Jolla, Calif.
Mark JacksonMeteorologist in Charge
NOAA/National Weather Service, Oxnard, Calif.
Angelyn MooreResearch Scientist
NASA Jet Propulsion Laboratory, Pasadena, Calif.
AGU Press ConferenceDecember 10, 2013
Jet Propulsion LaboratoryCalifornia Institute of Technology
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• By just adding inexpensive small micro electro-mechanical systems (MEMS) used in popular devices to existing precise GPS developed by the geophysical community over the last 10—20 years, we can greatly enhance our response to natural hazards such as earthquakes, tsunamis, severe weather and flooding
• The system is faster, more accurate, more reliable and more versatile than current practice, and has the unique ability to rapidly assess final damage state of engineered structures and permanent ground displacements that occur during large earthquakes with high accuracy (fraction of an inch)
• We report today on the first use of the system this past July by NOAA’s National Weather Service offices in San Diego and Oxnard, Calif. to forecast a summer monsoon event and issue accurate flood warnings
• We also report that the system is being applied to other real-world scenarios in the San Diego area, including monitoring of critical infrastructure such as hospitals and bridges
What’s new in our next-generation GPS monitoring system?
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Earthquakes/Tsunamis2011 Honshu Japan
(Credit: National Geographic)
Critical Infrastructure
GOAL: Save lives during natural hazards, including earthquakes, tsunamis, extreme storms and flooding; assess and mitigate damage to infrastructure such as hospitals, tall buildings and bridges
Warnings derived from enhanced GPS sensors are made available to emergency personnel, decision makers, and first responders through standard and other communications protocols and interfaces
26 February 2011 magnitude 6.1 Christchurch, New Zealand earthquake: Collapse of five-story TV building in caused 115 fatalities
7 April 2011 magnitude 9.0 Great East Japan earthquake and tsunami in Japan caused more than 20,000 casualties and severe damage to infrastructure
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GPS system first used in July, 2013 by NOAA National Weather Service in San Diego and Oxnard, Calif. to forecast a summer monsoon and issue accurate flash flood warnings
GPS system first used in July, 2013 by NOAA National Weather Service in San Diego and Oxnard, Calif. to forecast a summer monsoon and issue accurate flash flood warnings
Flooding across Highway 78, San Diego County, Calif., 2013 (Credit: NOAA)
Summer Monsoon
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+
Continuous atmospheric water vapor maps
+
=
=
Accelerometer
Meteorological Sensors(pressure, temperature)
GPS(on building)
Continuous measure of seismic motions
GPS(in field)
Providing warnings of natural hazards through integration of GPS with small, inexpensive seismic and meteorological sensors deployed over networks of field stations and/or large engineered structures
Providing warnings of natural hazards through integration of GPS with small, inexpensive seismic and meteorological sensors deployed over networks of field stations and/or large engineered structures
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Cascadia Subduction Zone – Mw 9.0 earthquake & tsunami similar to 2011 Japan events
San Francisco Bay Area – Increasing risk of large earthquake on Hayward fault
Southern San Andreas fault –overdue for large earthquake
NASA-funded Real-Time Earthquake Analysis for Disaster mItigation network (READI): 550 GPS stations maintained by UNAVCO, UC San Diego, USGS, UC Berkeley, and Central Washington Univ.
17 stations (green circles) upgraded with our sensors in summer, 2013
Western U.S. – Utilizing 550-station real-time GPS network spanning areas of high seismic and tsunami riskWestern U.S. – Utilizing 550-station real-time GPS network spanning areas of high seismic and tsunami risk
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Providing new tools for assessing seismic damage to large engineered structures – system validated in 2013 at UC San Diego’s large outdoor shake table facility in Camp Elliott, Calif.
Providing new tools for assessing seismic damage to large engineered structures – system validated in 2013 at UC San Diego’s large outdoor shake table facility in Camp Elliott, Calif.
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Source: Geng et al., GRL, 2013
0.16°
After a large earthquake buildings can be damage-tagged based on their permanent tilt and displacementsAfter a large earthquake buildings can be damage-tagged based on their permanent tilt and displacements
A 1° degree tilt would be enough to red-tag a building
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M 7.9 at 9 min M 8.9 at 2.5 hrs
Hayes et al., SRL, 2011 The final affected area was much larger than the initial estimates of the affected area, including the estimate of sea floor displacement.
2011 Mw 9.0 Great East Japan earthquake was underestimated2011 Mw 9.0 Great East Japan earthquake was underestimated
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Source: Melgar et al., GRL, 2013
Our system improves on traditional seismic monitoring by accurately determining magnitude of large (M 7-9) earthquakes and by estimating ground motions and permanent displacements
Our system improves on traditional seismic monitoring by accurately determining magnitude of large (M 7-9) earthquakes and by estimating ground motions and permanent displacements
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Source: Melgar et al., GRL, 2013
Detects arrival of seismic P (primary) waves used in earthquake early warning to predict arrival and intensity of S (secondary) waves, better than accelerometers alone for large earthquakes
Our system provides improved earthquake early warning to save lives and reduce damage to infrastructureOur system provides improved earthquake early warning to save lives and reduce damage to infrastructure
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NOAA Photo
Using the GPS Water Vapor
Data
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Santa Clara River near Ventura, Calif.January 9, 2005
Photo by Jayme Laber, NOAA
Max 3‐day Precipitation Totals (From Ralph et al)Red dots represent >20 inches in 3 days
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The amount of water in an AR is 7 to 15 times the amount that passes through the mouth of the Mississippi River.
Atmospheric Rivers (AR) are long and narrow streams of atmospheric water vapor that are responsible for many, if not all, winter heavy precipitation events in the Western U.S.
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Total precipitable water from satellite(not available over land)
Loop Starts December 18, 2010Loop Ends December 22, 2010
Moisture Source
Heavy rain in southern Calif.Heavy rain in southern Calif.
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Strong thunderstorm with flash flooding near Ludlow, Calif. (Photo Credit: Will Wilkens)
Accurate forecasts and warnings of flash flooding events depends in large part on timely and accurate information of the moisture available for intense thunderstorms
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= Weather balloon sites (max of 2x per day)
= GPS Integrated Precipitable Water sites (continuous)
Surface‐based Water Vapor Data Sites
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GPS is a weather instrument??
Because signals from the GPS satellites are affected by moist air, when we measure the position of a GPS station, we automatically also measure the atmospheric water vapor above.
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July 2013 North American Monsoon Event
Radar Estimated
Rainfall(mm/hr)
ModelPrecipitableWater (mm)
RadarReflectivity
(dbZ)
GPS‐basedPrecipitableWater (mm)
GPS‐basedPrecipitableWater (mm)
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“Realtime GPS precipitable water estimates were trending higher over eastern portions of the forecast area… a flash flood watch will be needed for Saturday”
“In order to see the character of the precipitable water values between Yuma and San Diego in the absence of a morning Yuma sounding, the GPS meteorology data was utilized.”
“Highway 78 flooded in two locations at Yacqui Pass with 30 vehicles trapped between the two flooded locations. Many large rocks in the roadway.”
“Battalion Chief flagged down by the public to report debris moving across the roadway on Sunrise Highway”
Forecaster remarks from NWS Weather Forecast Office in San Diego
Storm reports
S.D. GPS& sonde
Yuma GPS & sonde
El Centro GPS
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Disseminating alerts can be accomplished in myriad ways but using consistent protocols and interfaces put in place and
exercised in anticipation of a disaster – preparation and education are critical
Credit: eViglio
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Ongoing projects
• National Weather Service partnership, San Diego and Oxnard – monitoring extreme weather events
• Caltrans – monitoring Vincent Thomas bridge, Long Beach Harbor for seismic-, wind- and traffic-induced motions
• San Diego Office of Emergency Services – using for earthquake and tsunami early warning
• UC San Diego Medical Center – monitoring Hillcrest hospital and provide earthquake early warning
• California Spatial Reference Center – rebroadcasting real-time GPS data for surveying engineers & GIS specialists
Work funded by NASA, NSF, NOAA, Caltrans
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Summary
• Real-time information from GPS stations upgraded with small, inexpensive seismic and meteorological sensors made available to emergency personnel, decision makers, and first responders to help mitigate threats to public safety
• Prototype early warning system in southern California warns of threats from natural hazards such as earthquakes and extreme weather events, and assesses damage to critical infrastructure
• System first used in July by NOAA’s National Weather Service in San Diego and Oxnard, Calif. to forecast a summer monsoon event and issue accurate flood warnings
• Technology is now being integrated into other real-world scenarios, including monitoring of critical infrastructure such as hospitals and bridges
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Seismogeodetic Monitoring System
IP Portsstreaming
binary data
SOPAC get_acc client
SOPAC RTD positioningGPS
data
accelerationdata
SOPAC get_met client or other sensor data
met or otherdata
Network Adjustment
IP Portsstreaming
binary data
IP Portsstreaming
binary data
SOPAC RTD positioning
Real-time Wavepool
GPSpositions
SCEC DCwave pool and
archive
AIST2STPto user
pull eRYO clientacc_client
Kalman Filter Seismogeodetic
combination: x(t),v(t),a(t)
QC, variance statistics
fastCMT moment tensor
line source
Pd scalingtraveltime + 5s EQ magnitude
Other EQ event trigger
detection
PGD scalingmax moment release time
EQ magnitude
rapid finite fault inversion:
fault slip model
fault inversion with offshore data:
fault slip model
Other analysis centers
i.e. CWUGPS Cockpit
tsunami model
Common Alert Protocol
Other analysis centersDecember 10 test run with
shake table measurements
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GAM clientACE uploadSGM in house
DisplacementsVelocitiesPWVAlerts
SensorWeb
MEMSSensors
SGMACE
SGM
Serial
SGM in module
SGM: seismogeodesy/meteorology analysis and output
Project Components and Data FlowProject Components and Data Flow
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Estimates for tsunami height created with the extended source model
and improved bywith near-shore wave buoys and ocean-bottom sensors
Post
er N
H43
A-17
31Real-time Information for Tsunami WarningsReal-time Information for Tsunami Warnings
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2011 Honshu Japan
(National Geographic)
Model of 2011 Tsunami in Honshu: MoviesModel of 2011 Tsunami in Honshu: Movies
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Use GPS data available in 157 seconds after
earthquake origin time
Use GPS and near-shoreocean buoys available
after 20 minutes
Model of 2011 Tsunami in Honshu: MoviesModel of 2011 Tsunami in Honshu: Movies
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2011 magnitude 6.1 Christchurch, NewZealand earthquake: Collapse of five-story TVbuilding in caused 115 fatalities
Assessing structures and damage
2010 magnitude 8.8 Maule earthquake:Building collapse in downtown Concepcion,Chile
2004 magnitude 9.2 earthquake in Sumatra, Indonesia: City of Banda Aceh before earthquake & tsunami
Banda Aceh after 2004 earthquake and tsunami: 200,000 casualties in Sumatra alone
Issuing tsunami warnings