Accession Number : AD1045965


Title :   Mapping Ad Hoc Communications Network of a Large Number Fixed-Wing UAV Swarm


Descriptive Note : Technical Report,01 Jun 2015,31 Mar 2017


Corporate Author : Naval Postgraduate School Monterey United States


Personal Author(s) : Pospischil,Alexis


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/1045965.pdf


Report Date : 01 Mar 2017


Pagination or Media Count : 73


Abstract : In 2015, a group of Naval Postgraduate School (NPS) professors and students set a record when they flew 50 fixed-wing unmanned aerial vehicles (UAVs) simultaneously as a self-organizing swarm. These vehicles were able to execute behaviors based on message notification from a single ground station, and then decide within their swarm group how to order themselves. They were able to accomplish this by communicating over their 802.11n wifi connections. Understanding the strengths and weaknesses of this network will be essential to scaling the swarm to larger sizes or even creating partitioned sub-swarms. The work covered in this thesis is to build a model of the NPS swarms communication network in ns-3 simulation software and use popular network metrics to illustrate the performance of the network as swarm size increases. It also applied four routing protocols to the swarm and compares their performance to the broadcast protocol. The swarms communication network was not very tolerant of overhead. This thesis concludes that any routing protocol applied to the (NPS) swarm in the future should consider protocols that reduce or strictly manage overhead generated by either routing tables or multiple message copies. Good put and packet delivery ratio were the quantitative metrics used. While they illustrate reliability, they do not give a good picture of latency. It would be useful to add latency as a quantitative metric to future work because some swarm messages are more time-sensitive than others. It may be that more than one routing protocol or a protocol with variable settings would be best for this swarm and its various message priorities.


Descriptors :   COMMUNICATION NETWORKS , DRONES


Subject Categories : Radio Communications
      Pilotless Aircraft


Distribution Statement : APPROVED FOR PUBLIC RELEASE