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Applying Message Forwarding and Replication to Multi-UAV Message Ferry Networks

Authors:

Mehdi Harounabadi,

Andreas Mitschele-ThielAuthors Info & Claims

Mobile Networks and Applications, Volume 23, Issue 5

Pages 1337 - 1346

https://doi.org/10.1007/s11036-018-1038-7

Published: 01 October 2018 Publication History

Abstract

This paper presents a sparse ad hoc network where multiple mobility controlled message ferries cooperate to deliver messages for stationary and disconnected wireless nodes. Unmanned Aerial Vehicles (UAVs) are utilized as message ferries with an on-the-fly mobility decision making. The multi-hop delivery of messages is enabled by efficient message forwarding and replication among UAVs to accelerate the delivery of messages. Due to lack of global knowledge in UAVs, decisions in a UAV are made based on local observations. To this end, a signaling among UAVs occurs when they visit each other on-the-air. Through signaling, a UAV updates its view from the network and applies this information to its decision makers. Trajectory aware and priority based message replication schemes are proposed in this paper to limit the number of message replications and to decrease the delay of message delivery. The results show that the multi-hop delivery of messages in a message ferry network by message forwarding and replication among UAVs accelerates the delivery of messages comparing with a pure message ferrying scheme without any message forwarding. The proposed trajectory aware message replication scheme performs as good as the unlimited message replication scheme while decreasing the buffer length in UAVs. Moreover, the priority based message replication scheme in UAVs speeds up the delivery of high priority messages without any adverse impact on low priority messages.

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Cited By

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Harounabadi MHeyn T(2023)Toward Integration of 6G-NTN to Terrestrial Mobile Networks: Research and Standardization AspectsIEEE Wireless Communications10.1109/MWC.005.230020730:6(20-26)Online publication date: 1-Dec-2023
https://dl.acm.org/doi/10.1109/MWC.005.2300207
Sangeetha Francelin VDaniel JVelliangiri S(2022)Intelligent agent and optimization‐based deep residual network to secure communication in UAV networkInternational Journal of Intelligent Systems10.1002/int.2280037:9(5508-5529)Online publication date: 30-Jul-2022
https://dl.acm.org/doi/10.1002/int.22800

Applying Message Forwarding and Replication to Multi-UAV Message Ferry Networks
1. Networks
  1. Network types

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cover image Mobile Networks and Applications

Mobile Networks and Applications Volume 23, Issue 5

October 2018

330 pages

ISSN:1383-469X

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Springer-Verlag

Berlin, Heidelberg

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Published: 01 October 2018

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Harounabadi MHeyn T(2023)Toward Integration of 6G-NTN to Terrestrial Mobile Networks: Research and Standardization AspectsIEEE Wireless Communications10.1109/MWC.005.230020730:6(20-26)Online publication date: 1-Dec-2023
https://dl.acm.org/doi/10.1109/MWC.005.2300207
Sangeetha Francelin VDaniel JVelliangiri S(2022)Intelligent agent and optimization‐based deep residual network to secure communication in UAV networkInternational Journal of Intelligent Systems10.1002/int.2280037:9(5508-5529)Online publication date: 30-Jul-2022
https://dl.acm.org/doi/10.1002/int.22800

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A virtual multiple message ferry backbone routing scheme for mobile ad-hoc networks

Dynamic Message Ferry Route (dMFR) for Partitioned MANETs

Message ferry route design based on clustering for sparse ad hoc networks

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