DESIGN DEVELOPMENT OF A TSUNAMI EARLY WARNING DISSEMINATION SERVICE SYSTEM BASED ON SERVICE ORIENTED ARCHITECTURE (SOA) (Case Study: Meteorological, Climatological, and Geophysical Agency)
Indonesia is a country with a high seismic activity area and also has the potential to cause a tsunami disaster. Tsunami characteristics that have the potential to be recurrent and have a large disaster impact require mitigation efforts. One of the tsunami mitigation efforts is warning response....
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/45604 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Indonesia is a country with a high seismic activity area and also has the potential to cause a
tsunami disaster. Tsunami characteristics that have the potential to be recurrent and have a large
disaster impact require mitigation efforts. One of the tsunami mitigation efforts is warning
response. Information technology is one of the supporting facilities for tsunami warning in
response. Today's technological advancements demand that information reach users quickly,
precisely, accurately, has a broad reach and is easy to understand. The Meteorology Climatology
and Geophysics Agency (BMKG) are an agency that has the task, principle and function to provide
and disseminate tsunami early warnings. BMKG is expected to provide technological innovations
in services and dissemination of information (dissemination) quick and widely to the public,
especially affected communities. BMKG tsunami early warning dissemination is expected to meet
the needs of valuable information for the community in taking appropriate action before a disaster
occurs.
BMKG already has several modes of communication (WRS, SMS, fax, email, web, and GTS) which
are controlled by a dissemination system that automatically disseminates tsunami early warnings.
The dissemination system is supported by a seismic wave processing system (SeisComp3), a
tsunami modeling system (TOAST), a Decision Support System (DSS), and a narrative auto engine.
The service performance of these systems is still felt to be improved and developed because at
present, those systems which are part of the tsunami early warning system still use the concept of
simple data communication. These systems still use each protocol in exchanging data on the
internet network. The concept of data communication between the systems above needs to be
developed with a better concept so that between systems can communicate with the base layer and
with each other following a series of protocols and specifications. This is very much needed in
improving dissemination services, namely the addition of communication / receiver modes.
Based on the above, this study aims to produce an effort to improve the effectiveness and
performance of targeted tsunami early warning dissemination service systems at priority
recipients by utilizing interoperability between systems at the Earthquake and Tsunami Center for
Earthquake Deputies. The results of this study are in the form of concept designs and prototypes
of tsunami early warning dissemination service systems. The design of the service system concept
uses the principle of Service Oriented Architecture (SOA) and uses the Service System Engineering
(SSE) methodology. The case study of this research is at the Center for Earthquake and Tsunami
of the BMKG Deputy for Geophysics. |
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