deep-ocean assessment and reporting (dart ii) · pdf filedatabase of deep ocean model...
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D E E P - O C E A N A S S E S S M E N T A N D R E P O R T I N G ( D A R T I I )
Computers Watching Tsunamis
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Origins of Tsunamis1
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Origins of Tsunamis
nr
ErI )(
Energy density I(r) in terms of energy,
E, and distance, r:
n=2 for body waves
n=1 for surface waves
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Origins of Tsunamis
nr
ErI )(
Energy density I(r) in terms of energy,
E, and distance, r:
n=2 for body waves
n=1 for surface waves
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Impact of Tsunamis
Without a timely warning, the life toll can be devastating
Evacuation may take hours
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Impact of Tsunamis
And even with proper warning, there is only so much you can do….
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Challenges in Predicting Tsunamis
Timeliness
Accuracy
Physical
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Challenges in Predicting Tsunamis
• There is usually less than 24 hours between an earthquake event and a tsunami event in a populated coastal community
Timeliness
Accuracy
Physical
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Challenges in Predicting Tsunamis
• There is usually less than 24 hours between an earthquake event and a tsunami event in a populated coastal community
Timeliness
• False alarms waste government money and reduce the public faith in the warning system
Accuracy
Physical
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Challenges in Predicting Tsunamis
• There is usually less than 24 hours between an earthquake event and a tsunami event in a populated coastal community
Timeliness
• False alarms waste government money and reduce the public faith in the warning system
Accuracy
• Ocean is vast• Inhospitable and hard to access environment
Physical
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The DART System
A series of ocean floor sensors and
buoys
Data inversion technique
Satellite communication
An automated comprehensive
tsunami warning system
Tested well in real-time conditions
Main difference between DART I and DART II is a two way
communication capability
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Embedded System Design Considerations
Real-time deadline
Harsh environment
Self sufficiency
Size and Energy
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Embedded System Design Considerations
• Maximum 10 minute delay from event record to data received at the station
Real-time deadline
Harsh environment
Self sufficiency
Size and Energy
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Embedded System Design Considerations
• Maximum 10 minute delay from event record to data received at the station
Real-time deadline
• Deep water• Crew access difficulty
Harsh environment
Self sufficiency
Size and Energy
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Embedded System Design Considerations
• Maximum 10 minute delay from event record to data received at the station
Real-time deadline
• Deep water• Crew access difficulty
Harsh environment
• Error correction and maintenance protocols
Self sufficiency
Size and Energy
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Embedded System Design Considerations
• Maximum 10 minute delay from event record to data received at the station
Real-time deadline
• Deep water• Crew access difficulty
Harsh environment
• Error correction and maintenance protocols
Self sufficiency
• Must survive on battery power for a long time
Size and Energy
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Functional Protocol
MOST (Method of Splitting Tsunamis)
Measurements are pressure and temperature
Data from DART II may be requested by the user
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Functional Protocol
MOST (Method of Splitting Tsunamis)
Use a pre-computed database of deep ocean
model simulations
Real-time data from the tsunami-meter is inverted
based on the model
Off-shore values are used to start calculating local
community forecast
Measurements are pressure and temperature
Data from DART II may be requested by the user
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Functional Protocol
MOST (Method of Splitting Tsunamis)
Use a pre-computed database of deep ocean
model simulations
Real-time data from the tsunami-meter is inverted
based on the model
Off-shore values are used to start calculating local
community forecast
Measurements are pressure and temperature
The underwater tsunametercalculates water column
heights and transmits to the buoy
The buoy sends data to a satellite network
Data is received in an on-shore facility and a forecast is
made
Data from DART II may be requested by the user
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Functional Protocol
MOST (Method of Splitting Tsunamis)
Use a pre-computed database of deep ocean
model simulations
Real-time data from the tsunami-meter is inverted
based on the model
Off-shore values are used to start calculating local
community forecast
Measurements are pressure and temperature
The underwater tsunametercalculates water column
heights and transmits to the buoy
The buoy sends data to a satellite network
Data is received in an on-shore facility and a forecast is
made
Data from DART II may be requested by the user
DART II is in power-saving Listen mode
Can receive an initiation signal from a station 7/15
min
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Operational Requirements
• amplitudesMeasurement
• < 0.5 cm • water column height from P, T measurement
Accuracy
• < 1 minSampling
• < 2 minProcessing
• < 5 minDelivery
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Sensor Assembly
Sensors
Reciprocal counter
Computer
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Sensor Assembly
• Measures pressure, temperature, and tilt
Sensors
Reciprocal counter
Computer
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Sensor Assembly
• Measures pressure, temperature, and tilt
Sensors
• Accumulates every 15 sec
Reciprocal counter
Computer
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Sensor Assembly
• Measures pressure, temperature, and tilt
Sensors
• Accumulates every 15 sec
Reciprocal counter
• Motorola 68332• 512B RAM• Communications, detection
algorithm, store and retrieve, mode-switching
Computer
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Sensor Assembly
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Buoy Assembly
Downward and upward transducers
Mooring
Iridium Satellite Network
GPS
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Buoy Assembly
• Receive data from tsunameter• Send & receive data from
satellite
Downward and upward transducers
Mooring
Iridium Satellite Network
GPS
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Buoy Assembly
• Receive data from tsunameter• Send & receive data from satellite
Downward and upward transducers
• Prevents buoy from drifting too far from the tsunameter
Mooring
Iridium Satellite Network
GPS
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Buoy Assembly
• Receive data from tsunameter• Send & receive data from satellite
Downward and upward transducers
• Prevents buoy from drifting too far from the tsunameter
Mooring
• 2400 baud• 30 sec transmission time
Iridium Satellite Network
GPS
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Energy Considerations
• Standard Mode (idle)• Event Mode
Two Modes of Operation:
Batteries
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Energy Considerations
• Standard Mode (idle)• Water temperature & pressure measured every 15
min• Reports every 6 hours• Iridium transceivers off when not in use• Listen mode is 20% duty cycle
• Event Mode
Two Modes of Operation:
Batteries
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Energy Considerations
• Standard Mode (idle)• Water temperature & pressure measured every 15 min• Reports every 6 hours• Iridium transceivers off when not in use• Listen mode is 20% duty cycle
• Event Mode• Water temperature & pressure every 15 sec (few min.)• 1-minute average for 4 hours
Two Modes of Operation:
Batteries
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Energy Considerations
• Standard Mode (idle)• Water temperature & pressure measured every 15 min• Reports every 6 hours• Iridium transceivers off when not in use• Listen mode is 20% duty cycle
• Event Mode• Water temperature & pressure every 15 sec (few min.)• 1-minute average for 4 hours
Two Modes of Operation:
Batteries
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Energy Considerations
• Standard Mode (idle)• Water temperature & pressure measured every 15 min• Reports every 6 hours• Iridium transceivers off when not in use• Listen mode is 20% duty cycle
• Event Mode• Water temperature & pressure every 15 sec (few min.)• 1-minute average for 4 hours
Two Modes of Operation:
• Sensor – 4 years lifetime• Buoy – 2 years lifetime
Batteries
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Environmental Factors
Defense against fish eating the mooring line
Use wires at the depths where fish are encountered
Long battery life
Aggressive power-saving modes
Minimizes the need for human intervention
Protection around the pressure sensor
Computer redundancy in the buoy
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2003 Test Case
Large earthquake generates a
tsunami
• Detected by 3 tsunameters
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2003 Test Case
Large earthquake generates a tsunami
• Detected by 3 tsunameters
MOST model estimated 7.8 magnitude of
earthquake
• Corroborated later by USGS
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2003 Test Case
Off-shore wave heights predicted for
Hilo, HI
• It is determined that a tsunami will not occur
• Hilo tide gage measurements in perfect agreement with forecast
First “blind” study
• Real-time forecast• Proof of concept
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2003 Test Case
Off-shore wave heights predicted for
Hilo, HI
• It is determined that a tsunami will not occur
• Hilo tide gage measurements in perfect agreement with forecast
First “blind” study
• Real-time forecast• Proof of concept
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DART Extension
Funded since 1996
After the Indian Ocean Tsunami in 2006, 39 units were added
More units are added on regular basis
NOAA/PMEL continues to refine detection algorithms, MOST model, communications control
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Recent News: 2011 Japan
MOST model of wave heights of the 2011 tsunami in Japan
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Recent News: 2011 Japan
DART II water column height for Tokyo
Tsunami hit ~30 min after the quake
No hope for evacuation
Forecast was spot on
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References
C. Meinig, S. E. Stalin, A. I. Nakamura, F. Gonzalez, and H. B. Milburn; “Technology Developments in Real-Time Tsunami Measuring, Monitoring and Forecasting”, In Oceans 2005 MTS/IEEE, 19–23 September 2005, Washington, D.C.
www.pmel.noaa.gov
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