tsunamis detection the mission tsunamis detection can help to minimize loss of life and property...
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Tsunamis Detection
The Mission
Tsunamis Detection can help to minimize loss of life and property from future tsunamis.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Introduction
Tsunamis Detection:
• Tsunami disaster detection technologies
• Information dissemination technologies
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Tsunamis Detection
• Tsunami disaster detection technologies
Earthquakes cannot be predicted, resulting tsunamis can be detected by seabed monitors and ocean buoys leaving adequate time for evacuation.
• Information dissemination technologies
However, the technology is a minor part of the solution. A mechanism needs to be in place to interpret alerts, relay the warning to local communities and enable them to undertake quick action.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Let’s take a look on an example of the overall mechanism of the Tsunamis Detection….
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
Ssystem Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
TSUNAMETER -- Architecture The system is composed of the following main
parts:
1. In underwater monitoring module (UM) installed at the sea bed;
2. A surface buoy (SB) moored in the area of the UM;
3. An “in water” communication segment connecting the UM with SB;
4. An onshore centre (OC) hosting a standard PC server;
5. A satellite communication segment connecting SB and OC..
*Envirtech Tsunami Warning System as our reference.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
TSUNAMETER -- Underwater Monitoring Module (UM)
• Two different classes of underwater modules to comply with different types of applications.
• They differ for the instrumentation embedded, in
consideration of the distance between the tsunami-genic sources and the most close coastal regions.
• The maximum deployment distance is more than 1000 Km off shore. The maximum deployment depth is 5000 meters.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
TSUNAMETER – Surface Buoy The SB is composed by a metallic pole and a foam
body having a diameter of 1.45 m. The main parts installed on the buoy are:
1. The electronic box containing the SB Data Acquisition and Communication System (SB-DACS) relied on the same type of electronics of the UM;
2. An autonomous power supply system composed of 3 photovoltaic panels (12V- 50W each) and a gel battery pack (12V- 400Ah);
3. A magneto-inductive surface modem or the acoustic modem for the data link with the underwater unit;
4. A satellite modem Inmarsat C for reliable data connection with the Onshore Centre (OC).
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Tsunameter -- System Functionalities
The TWS provides the main basic functionalities listed below:
1. Continuous measurement of the sea bottom pressure with a rate of 15s, 30s, 1min, 2min, 5min selectable be the user in the OC. Optional monitoring of earthquakes occurence.
2. On line processing of the pressure data with a digital Kalman filter to detect a frequency component typical of a tsunami: the thresholds for the detection of tsunami waves can be configured by the OC user.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Tsunameter -- System Functionalities
3. The beginning of a possible event is automatically triggered by the pressure sensors (able to detect earthquake waves) and also by the hydrophone/seismometer if installed in UM.
4. The UM can start the tsunami detection algorithm also on user request from the OC in case of identification of seismic activity in the interested area.
5. Daily synchronisation of the SB and UM clock with the GPS.
6. Self-diagnostic and periodical notification to the OC.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Tsunameter -- System Functionalities
7. Internal logging in UM and SB of all acquired data, all detected events, all diagnostic status and exchanged messages (black box).
8. Remote configuration of the UM (change of communication settings, filtering parameters, on/off of sensors and devices, software updating).
9. Reception of commands from OC and notification of its execution;
10. Reception of data request from OC and reply with the requested data.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Tsunameter -- Detection of an anomaly
The main scenario in case of detection of an anomaly in the pressure signal is the following:
1. The UM-DACS in its standard operating mode IDLE MODE detects an unexpected variation in the pressure signal;
2. A notification message is sent to the OC and the UM-MODULE changes in the new status ALARM MODE;
3. In ALARM MODE the UM sends periodically a message to the OC: on request the user in the OC can transfer all pressure data acquired in ALARM MODE.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Tsunameter -- Detection of an anomaly
4. In case of detection of a tsunami events (frequency component in the range 0.01..0.0005Hz) an TSUNAMI DETECTION message is sent to the OC.
5. The user in the OC can verify the pressure data acquired during the ALARM MODE to validate the alarm condition and to verify its amplitude.
6. After the decrease of the tsunami wave components under some minimal threshold (parameter remotely configurable by the OC user) and after a period of some hours (parameter remotely configurable by the OC user), the UM chages from ALARM MODE to IDLE MODE.
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Information Dissemination
The Tsunami Alarm System receives earthquake and tsunami warning information from a multiplicity of seismic measuring stations and tsunami warning stations from
different countries.
Alarm being sent to your mobile telephone
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Where does the Tsunami Alarm System work?
The Tsunami Alarm System works everywhere in the world covered by the GSM network !
Information Dissemination
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Conclusion:
Key Components to an ideal Tsunami Warning and Response System:
1. Risk Assessment2. Detection3. Warning4. Response Plan5. Ready Public6. Situational Awareness7. Lessons Learned
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
Web Resources
• http://www.envirtech.org/envirtech_tsunameter.htm
• http://www.noaa.gov/tsunamis.html• http://en.wikipedia.org/wiki/
Tsunami_warning_system• http://www.tsunami.noaa.gov/
warning_system_works.html• http://topics.developmentgateway.org• http://www.envirtech.org/
envirtech_tsunameter.htm
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources
With the Tsunamis Detection,
no fear visiting the coast all over
the world !
Mission
Introduction
Mechanism
Architecture
Underwater Monitoring Module
Surface Buoy
System Functionalities
Detection of an anomaly
Information Dissemination
Conclusion
Web Resources