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RobE: Robust Connection Establishment for Multipath TCP

Authors:

Markus Amend,

Veselin Rakocevic,

Andreas Philipp Matz,

Eckard BogenfeldAuthors Info & Claims

ANRW '18: Proceedings of the 2018 Applied Networking Research Workshop

Pages 76 - 82

https://doi.org/10.1145/3232755.3232762

Published: 16 July 2018 Publication History

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Abstract

Over the past decade, the way that devices connect to the Internet has changed drastically. The introduction of high-speed mobile networks and the omnipresence of wireless access points led to a situation where most devices offer multiple network interfaces, such as cellular and WiFi radios. However the most prevalent Layer 4 protocol, TCP, is not multipath capable and thus limited to using one interface at a time [4]. Multipath TCP [6], which is based on the classic TCP, resolves this problem by spreading the data flow across multiple paths. When a new connection is established, an initial subflow is created for backwards compatibility to TCP; afterwards, additional subflows can be created and MPTCP offers resilience against link failures [1]. Depending on the first flow to create a new connection prevents MPTCP from exploiting multi-link capabilities during the establishment phase. Therefore, if the initial subflow is not successful, a connection cannot be established. In this paper an extension to the existing MPTCP standard is proposed: MPTCP RobE. This solution extends the inherent resiliency of MPTCP against link failures to the establishment phase by introducing the concept of several potentially initial subflows, which tremendously increases the chance to build a successful initial subflow, and at the same time improves end-to-end latency during the establishment phase significantly. In this paper, three different concepts for MPTCP RobE are proposed and discussed with regard to technical aspects and MPTCP standard integration. Finally, a protoype is used to verify the performance of MPTCP RobE with respect to robustness and latency gains in different scenarios.

References

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Cited By

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Rabitsch AGrinnemo KBrunstrom AAbrahamsson HAbdesslem FAlfredsson SAhlgren B(2022)Utilizing Multi-Connectivity to Reduce Latency and Enhance Availability for Vehicle to Infrastructure CommunicationIEEE Transactions on Mobile Computing10.1109/TMC.2020.302830621:5(1874-1891)Online publication date: 1-May-2022
https://doi.org/10.1109/TMC.2020.3028306

Index Terms

RobE: Robust Connection Establishment for Multipath TCP
1. Networks
  1. Network performance evaluation
    1. Network performance analysis
  2. Network protocols
    1. Network protocol design
    2. Transport protocols

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ANRW '18: Proceedings of the 2018 Applied Networking Research Workshop

July 2018

102 pages

ISBN:9781450355858

DOI:10.1145/3232755

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 ACM 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

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Published: 16 July 2018

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IRTF
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SIGCOMM

ANRW '18: Applied Networking Research Workshop

July 16, 2018

QC, Montreal, Canada

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Rabitsch AGrinnemo KBrunstrom AAbrahamsson HAbdesslem FAlfredsson SAhlgren B(2022)Utilizing Multi-Connectivity to Reduce Latency and Enhance Availability for Vehicle to Infrastructure CommunicationIEEE Transactions on Mobile Computing10.1109/TMC.2020.302830621:5(1874-1891)Online publication date: 1-May-2022
https://doi.org/10.1109/TMC.2020.3028306

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Recommendations

WiFi, LTE, or Both?: Measuring Multi-Homed Wireless Internet Performance

A measurement-based study of MultiPath TCP performance over wireless networks

Multi-path TCP performance evaluation in dual-homed (wired/wireless) devices

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