VERY LOCAL TSUNAMI WARNING SYSTEM ANOTHER CHALLENGE OF INATEWS Masturyono 1 , Bambang Sunardi 2 , Suci Dewi Anugrah 3 1) Instrumentation, Engineering, and Calibration Centre 2) Research and Development Centre 3) Earthquake and Tsunami Centre ABSTRACTThe establishment of the tsunami warning system is based on the fact, that the seismic waves propagate faster then tsunami wave. The tsunami wave arrive in the shore line after the earthquake parameters can be determined, so that there is time left to evaluate the earthquake, whether the earthquake is tsunamigenic or not, disseminated the information or warning to the target area, andfinally to do evacuation if necessary. For the tele-tsunami, in which the tsunami will arrive in the beach more then one hour after the origin time of earthquake, generally there is enough time to do all of those processes, so that the warning can be disseminate in 100 % confidence level. For local tsunami, in which the tsunami will arrive in the beach less then one hour, the warning is disseminated in the lower the confidence level. For example, Indonesia Tsunami Warning System (InaTEWS) is d esigned for local tsunami warning for Indonesian region. Any tsunami-genic earthquake occurs in the Indian Ocean plate boundary, the tsunami wave will sweep the closestshore line within 20-40 minutes after the origin time of the earthquake. The warning is determinedjust only based on the evaluation of the earthquake parameters and tsunami modeling. It is difficultto add sea level data to increase the confidence level of he warning. Although the confidence level is lower, the tsunami warning could be disseminated. In some cases, especially for the eastern of Indonesia, the tsunami can be generated within innersea, such as Flores sea, Banda sea, Ceram sea, Maluku sea, and any others. In that cases, tsunami wave will reach the closest shore line within 10 minutes or less. This tsunami may be called as very local tsunami. By evaluating the time line for issuing the tsunami warning, it is clear that very critical to disseminate tsunami warning based on the available technology recently. The effectiveness of the warning is very small, therefore another possibility warning for very local tsunami should be designed. In this presentation, we propose to use natural signs as the warning. As we might know that in general tsunami can be generated by large earthquake. This kindearthquake could be felt strongly by most peoples. This natural sign could be applied as a tsunami warning. The other possibility is to use rather simple technology, as compliment to the natural warning. A very local tsunami warning system can be designed as the following. The warning
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Very Local Tsunami Warning System, Another Challenge of InaTEWS
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8/6/2019 Very Local Tsunami Warning System, Another Challenge of InaTEWS
1) Instrumentation, Engineering, and Calibration Centre
2) Research and Development Centre
3) Earthquake and Tsunami Centre
ABSTRACT
The establishment of the tsunami warning system is based on the fact, that the seismic waves
propagate faster then tsunami wave. The tsunami wave arrive in the shore line after the earthquake
parameters can be determined, so that there is time left to evaluate the earthquake, whether theearthquake is tsunamigenic or not, disseminated the information or warning to the target area, and
finally to do evacuation if necessary. For the tele-tsunami, in which the tsunami will arrive in the
beach more then one hour after the origin time of earthquake, generally there is enough time to do
all of those processes, so that the warning can be disseminate in 100 % confidence level. For local
tsunami, in which the tsunami will arrive in the beach less then one hour, the warning is
disseminated in the lower the confidence level. For example, Indonesia Tsunami Warning System
(InaTEWS) is designed for local tsunami warning for Indonesian region. Any tsunami-genic
earthquake occurs in the Indian Ocean plate boundary, the tsunami wave will sweep the closest
shore line within 20-40 minutes after the origin time of the earthquake. The warning is determined
just only based on the evaluation of the earthquake parameters and tsunami modeling. It is difficult
to add sea level data to increase the confidence level of he warning. Although the confidence level
is lower, the tsunami warning could be disseminated.
In some cases, especially for the eastern of Indonesia, the tsunami can be generated within inner
sea, such as Flores sea, Banda sea, Ceram sea, Maluku sea, and any others. In that cases, tsunami
wave will reach the closest shore line within 10 minutes or less. This tsunami may be called as very
local tsunami. By evaluating the time line for issuing the tsunami warning, it is clear that very
critical to disseminate tsunami warning based on the available technology recently. The
effectiveness of the warning is very small, therefore another possibility warning for very local
tsunami should be designed. In this presentation, we propose to use natural signs as the warning.
As we might know that in general tsunami can be generated by large earthquake. This kind
earthquake could be felt strongly by most peoples. This natural sign could be applied as a tsunami
warning. The other possibility is to use rather simple technology, as compliment to the natural
warning. A very local tsunami warning system can be designed as the following. The warning
8/6/2019 Very Local Tsunami Warning System, Another Challenge of InaTEWS
system consist of two devices, those are a three component broadband seismograph and a local
siren. The seismograph can be used to monitor and estimate the magnitude of the local earthquake
and the siren can be used to warn the people if the earthquake is possible to generate tsunami.
Although, the natural signs and the simple technology could be combine to establish the very local
tsunami warning system, the important is to educate people so that they understand the earthquake,
tsunami, and how they can save from those disasters.
Key word: Tsunami, InaTEWS, Tsunami Preparedness
1. Introduction
A tsunami early warning system (TEWS) is a tool for public preparedness in tsunami
hazard mitigation. The system should be able to provide the possibility of tsunamigeneration and disseminate a warning to the society in order to prevent loss of casualties
and property. It consists of two components: a network of sensors to detect and predict
tsunamis as a half work of the system, and an equal importance of communications
infrastructure to issue warning to permit evacuation of dangerous coastal areas as a half
one.
The TEWS are based on the fact that seismic waves propagate faster then tsunami wave. In
the open ocean the wave propagation velocity of tsunamis is about 500 to 1,000 km/h
(around 0.14 and 0.28 km/s) while earthquakes has a typical wave speed of 4 km/s (around
14,400 km/h). It’s mean that there is a left time to predict the arriving of tsunami wave into
the shore line after the earthquake parameters can be determined.
Table 1. The comparison of Tsunami and Earthquake Travel Distance
TimeDistance (km)
Tsunami Earthquake
0 0 0
30 390 12000
60 780 24000
90 1170 36000
The earthquake parameters such as epicenter, hypocenters, magnitude, and also
geometrical parameter of the earthquake (slip, strike, dip), become a basic analysis whetherthe earthquake is a tsunamigenic or not, and whether the system has to issue a warning to
the people in the coastal area. Unfortunately, it is not easy to detect a tsunami based on
earthquake parameters only. This approach often produces many more false alarms than
verified warnings. In the current operational paradigm, the seismic alerts are used to send
out the watches and warnings. Then, data from observed sea level height (either shore-
based tide gauges or DART buoys) are used to verify the existence of a tsunami.
8/6/2019 Very Local Tsunami Warning System, Another Challenge of InaTEWS
At least, there are 3 kinds of Tsunami due to its arrival time: Distance Tsunami, Local
Tsunami and Very Local Tsunami. A far field tsunami or a distance tsunami is referred to
the tsunami event of the very far away source to the coastal effected by tsunami. In this
case the tsunami wave will come to beach in 1 hour later even more, and still have enough
time to verify the high wave based on the dart buoy and even the tide gauge as we can see
in the Distant Tsunami Warning Chain.
Figure 1. Distance tsunami modeling
Figure 2. Diagram of distant tsunami warning chain
The unique position of Indonesia geologically causes the system has to be designed as a
local Tsunami Early Warning System. The subduction zone of Indonesian area extends
from the north western corner of Sumatra to Flores the eastern part of Indonesia. Should a
tsunami occur in the off coast of Indonesia, the waves will reach the coast within 20
minutes even least than it. This situation makes the system has to issue warning not more
than 10 -15 minutes, in order to give a little time for people to evacuate the dangerous area.
A new approach of the fast and reliable determination of strong earthquakes has been triedto be applied into the InaTEWS. The InaTEWS is an aggregate system of all of sensor
monitoring systems and the numerical modeling of tsunamis which can be seen in the
situation assessment of the GUI system. All of the information obtained from all sensor
monitoring networks are collected by a system, known as Decision Support system
(DSS).Unfortunately, The InaTEWS is not an easy system practically. The direct
incorporation of abroad variety of different sensors for a more precise determination of a
tsunami to reduce a false alarm is a big challenge.
8/6/2019 Very Local Tsunami Warning System, Another Challenge of InaTEWS
One of the recent example of a local tsunami event in the eastern part of Indonesia is an
earthquake that occurred on February 12th
2009. The location is taken a part in the
northwest sea of Halmahera. This earthquake is predicted as a tsunamigenic earthquake.
The simulation shows that the tsunami wave will reach the closest beach in 5 minutes after
the earthquake.
4. The Role of Tsunami Preparedness Education
Tsunami preparedness means all preparation activities regarding a tsunami hazard event to
improve a community’s capabilities to respond to and recover from tsunami. In the term of
the subject who involved, Preparedness has a little difference from mitigation activities.
Preparedness usually is a result of individual organizations while mitigation projects tend
to be jurisdictional policies. The activities of Tsunami preparedness education include:
1. Training programs for response personnel
2.
Tsunami detection and warning systems3. Identification of evacuation routes and shelters
4. Public education
The public education might be considered as a key of those activities. Education programs
are the only way to prepare community members to evacuate when they observe natural
warning signs. The goal of public outreach programs is not only to share basic information
about when, how and where to evacuate but also to have people recognize tsunamis
Due to the very local tsunami event that mostly occurred in the eastern part of Indonesia, it
is quite difficult to rely on the capability of InaTEWS only. The portion of education
approach of tsunami preparedness in order to inform the sign of tsunami hazard event has
to be maximized than technological approach of InaTEWS. The diagram of Solution
Approach shows the resolving of all kinds of tsunami event using a combination of technological approach and cultural and natural sign approach in different portion. For the
very local tsunami it is suggested that using cultural approach is more reliable than using
technological approach. Therefore it is advised that the people should evacuate themselves
as soon as they recognize the natural sign without waiting for a warning issued by TEWS.
8/6/2019 Very Local Tsunami Warning System, Another Challenge of InaTEWS
Figure 11. Diagram of very local tsunami Warning Chain
People in Simeuleu island of Banda Aceh is one of the best example of cultural approachimplementation when the tsunami 2004 occurred as a local tsunami. A number coastal
villages in that area evacuated and survived themselves because of the cultural tradition of
their communities which emphasized immediately running to high ground after feeling a
strong earthquake. The first tsunami wave arrived at Simeulue Island only 8 minutes after
the earthquake, destroying every structure in the community. No casualties in the village
because everyone understood the natural sign and knew to grab their children and help the
elderly to a predetermined area on high.
5. Understanding of Natural Signs
The lack of facilities of tsunami preparedness activities in the eastern part of Indonesiarequires the tsunami natural sign understanding as an aspect that has to be stressed in the
term of tsunami preparedness education. Some information regarding the tsunami natural
sign that should be informed to the society are:
1. A big earthquake will shake strongly, that can be felt by many people. This sign
should be accept as a tsunami warning that can be used to start doing self
evacuation by staying away from the coastal area.
8/6/2019 Very Local Tsunami Warning System, Another Challenge of InaTEWS