research-article

Simulating large-scale airborne networks with ns-3

Authors:

Kevin JeffayAuthors Info & Claims

WNS3 '15: Proceedings of the 2015 Workshop on ns-3

Pages 32 - 39

https://doi.org/10.1145/2756509.2756514

Published: 13 May 2015 Publication History

Abstract

Large-scale airborne networks, which connect airborne nodes with high-bandwidth communication links are being actively pursued commercially. We propose utilizing thousands of operational passenger and cargo aircraft as the principal components of an airborne network which could provide high-speed Internet to passengers on-board and on the ground. To simulate such a network we have augmented the ns-3 network simulator with a model for ingesting and processing aircraft position information, a steerable directional antenna model, a wireless point-to-point channel and associated net devices, and a distributed topology control application to manage the topology of the mesh network. We describe our implementation of these models and some tools for visualizing airborne networks. Using a simulation of a large airborne network, covering the United States, we perform experiments to evaluate the effectiveness of using the Optimized Link State Routing Protocol (OLSR) to route network traffic. Our simulations lead us to conclude that OLSR is likely not a good fit for our envisioned network.

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Cited By

Black EGamboa SRouil RHenderson TAvallone SPolese MGamess E(2021)NetSimulyzerProceedings of the 2021 Workshop on ns-310.1145/3460797.3460806(65-72)Online publication date: 23-Jun-2021
https://dl.acm.org/doi/10.1145/3460797.3460806
Campanile LGribaudo MIacono MMarulli FMastroianni M(2020)Computer Network Simulation with ns-3: A Systematic Literature ReviewElectronics10.3390/electronics90202729:2(272)Online publication date: 5-Feb-2020
https://doi.org/10.3390/electronics9020272
French AMozaffari MEldosouky ASaad W(2019)Environment-Aware Deployment of Wireless Drones Base Stations with Google Earth Simulator2019 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops)10.1109/PERCOMW.2019.8730845(868-873)Online publication date: Mar-2019
https://doi.org/10.1109/PERCOMW.2019.8730845
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Index Terms

Simulating large-scale airborne networks with ns-3
1. Computing methodologies
  1. Modeling and simulation

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Published In

cover image ACM Other conferences

WNS3 '15: Proceedings of the 2015 Workshop on ns-3

May 2015

136 pages

ISBN:9781450333757

DOI:10.1145/2756509

Conference Chairs:
Eric Gamess
Universidad Central de Venezuela, Venezuela
,
Peter D. Barnes
Lawrence Livermore National Laboratory, USA
,
Hajime Tazaki
University of Tokyo, Japan
,
General Chair:
Nicola Baldo
Centre Tecnològic de Telecomunicacions de Catalunya, Spain

Copyright © 2015 ACM.

Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than the author(s) must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected].

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Association for Computing Machinery

New York, NY, United States

Publication History

Published: 13 May 2015

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WNS3 2015

WNS3 2015: Workshop on ns-3

May 13 - 14, 2015

Barcelona, Spain

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WNS3 '15 Paper Acceptance Rate 17 of 27 submissions, 63%;

Overall Acceptance Rate 54 of 82 submissions, 66%

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Cited By

Black EGamboa SRouil RHenderson TAvallone SPolese MGamess E(2021)NetSimulyzerProceedings of the 2021 Workshop on ns-310.1145/3460797.3460806(65-72)Online publication date: 23-Jun-2021
https://dl.acm.org/doi/10.1145/3460797.3460806
Campanile LGribaudo MIacono MMarulli FMastroianni M(2020)Computer Network Simulation with ns-3: A Systematic Literature ReviewElectronics10.3390/electronics90202729:2(272)Online publication date: 5-Feb-2020
https://doi.org/10.3390/electronics9020272
French AMozaffari MEldosouky ASaad W(2019)Environment-Aware Deployment of Wireless Drones Base Stations with Google Earth Simulator2019 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops)10.1109/PERCOMW.2019.8730845(868-873)Online publication date: Mar-2019
https://doi.org/10.1109/PERCOMW.2019.8730845
Sedjelmaci HSenouci S(2018)Cyber security methods for aerial vehicle networksThe Journal of Supercomputing10.5555/3288339.328835174:10(4928-4944)Online publication date: 1-Oct-2018
https://dl.acm.org/doi/10.5555/3288339.3288351
Buchter K(2017)Availability of aeronautical ad-hoc network in different global air transport fleet scenarios2017 XXXIInd General Assembly and Scientific Symposium of the International Union of Radio Science (URSI GASS)10.23919/URSIGASS.2017.8105212(1-4)Online publication date: Aug-2017
https://doi.org/10.23919/URSIGASS.2017.8105212
Lehmann AKreuzer MDeutschmann JBerold UHuber JGamess ESwenson BTazaki HHenderson T(2016)Topology Simulation for Aeronautical Communication Protocols with ns-3 and DCEProceedings of the 2016 Workshop on ns-310.1145/2915371.2915375(132-138)Online publication date: 15-Jun-2016
https://dl.acm.org/doi/10.1145/2915371.2915375
Newton BAikat JJeffay K(2016)Geographic Routing in Extreme-Scale Highly-Dynamic Mobile Ad Hoc Networks2016 IEEE 24th International Symposium on Modeling, Analysis and Simulation of Computer and Telecommunication Systems (MASCOTS)10.1109/MASCOTS.2016.73(205-210)Online publication date: Sep-2016
https://doi.org/10.1109/MASCOTS.2016.73
Shahzad F(2016)Pymote 2.0: Development of an Interactive Python Framework for Wireless Network SimulationsIEEE Internet of Things Journal10.1109/JIOT.2016.25702203:6(1182-1188)Online publication date: Dec-2016
https://doi.org/10.1109/JIOT.2016.2570220

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