Performance Evaluation of Transport Protocols in Tactical Network Environments

Wireless channels, heterogeneous technologies, constrained resources, interference, and high mobility of nodes are some of the characteristics that make communications in tactical networks extremely challenging. Given the availability of a number of transport protocols, designed with different use c...

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Published in	MILCOM IEEE Military Communications Conference pp. 30 - 36
Main Authors	Morelli, Alessandro, Provosty, Michel, Fronteddu, Roberto, Suri, Niranjan
Format	Conference Proceeding
Language	English
Published	IEEE 01.11.2019
Subjects	Bandwidth congestion control Internet Microsoft Windows Packet loss tactical networks TCP Transport protocol Transport protocols
Online Access	Get full text
ISSN	2155-7586
DOI	10.1109/MILCOM47813.2019.9021047

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Abstract	Wireless channels, heterogeneous technologies, constrained resources, interference, and high mobility of nodes are some of the characteristics that make communications in tactical networks extremely challenging. Given the availability of a number of transport protocols, designed with different use cases and motivations, and recent developments in the area of congestion control, it is of great interest to military applications developers to study the performance of such protocols in tactical network scenarios. To this end, this paper evaluates three TCP congestion control implementations, namely CUBIC, Compound TCP (CTCP), and Bottleneck Bandwidth and Round-trip propagation time (BBR), in an emulated military-relevant networking environment. We then extend the study to include other transport protocols, more specifically: Stream Control Transmission Protocol (STCP), UDP-based Data Transfer protocol (UDT), Quick UDP Internet Connections (QUIC), and Mobile Sockets (Mockets). To evaluate their performance, we measured the average latency and throughput for several different common use cases and network conditions.
AbstractList	Wireless channels, heterogeneous technologies, constrained resources, interference, and high mobility of nodes are some of the characteristics that make communications in tactical networks extremely challenging. Given the availability of a number of transport protocols, designed with different use cases and motivations, and recent developments in the area of congestion control, it is of great interest to military applications developers to study the performance of such protocols in tactical network scenarios. To this end, this paper evaluates three TCP congestion control implementations, namely CUBIC, Compound TCP (CTCP), and Bottleneck Bandwidth and Round-trip propagation time (BBR), in an emulated military-relevant networking environment. We then extend the study to include other transport protocols, more specifically: Stream Control Transmission Protocol (STCP), UDP-based Data Transfer protocol (UDT), Quick UDP Internet Connections (QUIC), and Mobile Sockets (Mockets). To evaluate their performance, we measured the average latency and throughput for several different common use cases and network conditions.
Author	Fronteddu, Roberto Morelli, Alessandro Provosty, Michel Suri, Niranjan
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Snippet	Wireless channels, heterogeneous technologies, constrained resources, interference, and high mobility of nodes are some of the characteristics that make...
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SubjectTerms	Bandwidth congestion control Internet Microsoft Windows Packet loss tactical networks TCP Transport protocol Transport protocols
Title	Performance Evaluation of Transport Protocols in Tactical Network Environments
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