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IEEE 802.11 Based Wireless Mesh Disaster Recovery System with Lifetime Enhancement

About IEEE 802.11 Based Wireless Mesh Disaster Recovery System with Lifetime Enhancement

After the occurrence of a disaster (e. g. an earthquake or tsunami) one of the main needs for the rescue teams and volunteer helpers is a functional communication infrastructure even during the first hours. The disaster recovery system (DRS) which is proposed in this work is based on an IEEE 802.11s wireless mesh network which is set up by non-damaged, legacy, mesh capable and battery powered devices still available in the disaster region. Key considerations concerning the performance of a DRS are the required node density, the coverage that can be achieved by a given node density, scalability as well as the lifetime of the system. For lifetime of the system. For lifetime enhancement, which is a key challenge for the proposed DRS on battery powered devices, a distributed algorithm is proposed which enhances the lifetime of such a system by an approach which allows to shut down non-necessary nodes and to keep them for a later usage while still keeping network connectivity.

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  • Language:
  • English
  • ISBN:
  • 9783736970526
  • Binding:
  • Paperback
  • Pages:
  • 248
  • Published:
  • August 26, 2019
  • Dimensions:
  • 210x148x13 mm.
  • Weight:
  • 299 g.
Delivery: 1-2 weeks
Expected delivery: November 20, 2024

Description of IEEE 802.11 Based Wireless Mesh Disaster Recovery System with Lifetime Enhancement

After the occurrence of a disaster (e. g. an earthquake or tsunami) one of the main needs for the rescue teams and volunteer helpers is a functional communication infrastructure even during the first hours. The disaster recovery system (DRS) which is proposed in this work is based on an IEEE 802.11s wireless mesh network which is set up by non-damaged, legacy, mesh capable and battery powered devices still available in the disaster region. Key considerations concerning the performance of a DRS are the required node density, the coverage that can be achieved by a given node density, scalability as well as the lifetime of the system. For lifetime of the system. For lifetime enhancement, which is a key challenge for the proposed DRS on battery powered devices, a distributed algorithm is proposed which enhances the lifetime of such a system by an approach which allows to shut down non-necessary nodes and to keep them for a later usage while still keeping network connectivity.

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