EARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN
Earthquakes are natural disasters with the highest number of fatalities in the last three decades. General communication systems are failing in all forms of extreme conditions so earthquake disaster response communication systems need to be created. Literature studies conducted resulted in the re...
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id-itb.:540442021-03-15T09:41:14ZEARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN Naufal Setiawan, Ardji Indonesia Final Project communication system, natural disaster response, earthquake, peer to peer, client/server, protocol based gossip algorithm, Internet Protocol, hybrid routing INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/54044 Earthquakes are natural disasters with the highest number of fatalities in the last three decades. General communication systems are failing in all forms of extreme conditions so earthquake disaster response communication systems need to be created. Literature studies conducted resulted in the requirements for an earthquake response communuation system in the form of (1) can function immediately after a disaster occurs; (2) can be fully functional for 72 hours after disaster occurs; (3) can distribute data quickly; (4) may cover the largest affected area; (5) easily accessible to anyone; (6) have a large user capacity; and (7) have a low dependence on communication systems and support systems before disasters. Some requirements are contradictory to other requirement so it needs to be created two systems that can meet different requirements, Ad Hoc Communication System that uses P2P architecture and gossip-based protocol and Hybrid Communication System that combines P2P architecture with client/server and IP protocol with Hybrid routing dynamic routing method. Ad Hoc Communication System was tested using literature research method and simulation method. The test results show that the Ad Hoc Communication System is proven to meet the system's requirements to (1) be activated immediately because it uses smartphones for implementation, (2) can distribute data at a speed of 0.356 Mbps which can accommodate the exchange of image files with limited quality, (3) can include the affected area 600 m wide, (4) can be accessed easily by anyone because it is accessible with smartphone devices, (5) has a user capacity of 49.6 users, and (6) has low dependence on communication systems and system supports before the disaster. text |
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Institut Teknologi Bandung |
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Indonesia Indonesia |
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Indonesia |
| description |
Earthquakes are natural disasters with the highest number of fatalities in the last three decades.
General communication systems are failing in all forms of extreme conditions so earthquake
disaster response communication systems need to be created.
Literature studies conducted resulted in the requirements for an earthquake response
communuation system in the form of (1) can function immediately after a disaster occurs; (2) can
be fully functional for 72 hours after disaster occurs; (3) can distribute data quickly; (4) may cover
the largest affected area; (5) easily accessible to anyone; (6) have a large user capacity; and (7)
have a low dependence on communication systems and support systems before disasters. Some
requirements are contradictory to other requirement so it needs to be created two systems that can
meet different requirements, Ad Hoc Communication System that uses P2P architecture and
gossip-based protocol and Hybrid Communication System that combines P2P architecture with
client/server and IP protocol with Hybrid routing dynamic routing method.
Ad Hoc Communication System was tested using literature research method and simulation
method. The test results show that the Ad Hoc Communication System is proven to meet the
system's requirements to (1) be activated immediately because it uses smartphones for
implementation, (2) can distribute data at a speed of 0.356 Mbps which can accommodate the
exchange of image files with limited quality, (3) can include the affected area 600 m wide, (4) can
be accessed easily by anyone because it is accessible with smartphone devices, (5) has a user
capacity of 49.6 users, and (6) has low dependence on communication systems and system
supports before the disaster. |
| format |
Final Project |
| author |
Naufal Setiawan, Ardji |
| spellingShingle |
Naufal Setiawan, Ardji EARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN |
| author_facet |
Naufal Setiawan, Ardji |
| author_sort |
Naufal Setiawan, Ardji |
| title |
EARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN |
| title_short |
EARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN |
| title_full |
EARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN |
| title_fullStr |
EARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN |
| title_full_unstemmed |
EARTHQUAKE RESPONSE COMMUNICATION SYSTEM REQUIREMENT ANALYSIS AND PROTOTYPE DESIGN |
| title_sort |
earthquake response communication system requirement analysis and prototype design |
| url |
https://digilib.itb.ac.id/gdl/view/54044 |
| _version_ |
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