Transport-Layer Architecture for the Internet H 2020-ICT-05-2014 Project number : 644334 Deliverable D 3 . 2 Final Report on Transport Protocol Enhancements


EC Project Deliverable


A. Brunstrom, G. Fairhurst, Karl-Johan Grinnemo, D. A. Hayes, Per Hurtig, Naeem Khademi, David Ros, Irene Rüngeler, M. Tüxen, Felix Weinrank, M. Welzl
2017

Semantic Scholar
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APA   Click to copy
Brunstrom, A., Fairhurst, G., Grinnemo, K.-J., Hayes, D. A., Hurtig, P., Khademi, N., … Welzl, M. (2017). Transport-Layer Architecture for the Internet H 2020-ICT-05-2014 Project number : 644334 Deliverable D 3 . 2 Final Report on Transport Protocol Enhancements.


Chicago/Turabian   Click to copy
Brunstrom, A., G. Fairhurst, Karl-Johan Grinnemo, D. A. Hayes, Per Hurtig, Naeem Khademi, David Ros, et al. Transport-Layer Architecture for the Internet H 2020-ICT-05-2014 Project Number : 644334 Deliverable D 3 . 2 Final Report on Transport Protocol Enhancements, 2017.


MLA   Click to copy
Brunstrom, A., et al. Transport-Layer Architecture for the Internet H 2020-ICT-05-2014 Project Number : 644334 Deliverable D 3 . 2 Final Report on Transport Protocol Enhancements. 2017.


BibTeX   Click to copy

@techreport{a2017a,
  title = {Transport-Layer Architecture for the Internet H 2020-ICT-05-2014 Project number : 644334 Deliverable D 3 . 2 Final Report on Transport Protocol Enhancements},
  year = {2017},
  author = {Brunstrom, A. and Fairhurst, G. and Grinnemo, Karl-Johan and Hayes, D. A. and Hurtig, Per and Khademi, Naeem and Ros, David and Rüngeler, Irene and Tüxen, M. and Weinrank, Felix and Welzl, M.}
}

Abstract

This deliverable provides a final report on the work on transport protocol enhancements done in Work Package 3. First, we report on the extensions made to the SCTP protocol that turn it into a viable alternative to TCP and allow to deliver a lower-latency transport service. Next, we describe our work to develop a framework for providing a deadline-aware, less-than-best-effort transport service, targeting background traffic and thus addressing requirements on NEAT from the EMC use case. We also present our efforts to design and implement a latency-aware scheduler for MPTCP, which enables NEAT to offer a transport service that meets the needs of latency-sensitive applications, and that efficiently utilises available network resources. Lastly, this document informs on our work on coupled congestion control for TCP, a mechanism that treats a bundle of parallel TCP flows between the same pair of hosts as a single unit. By efficiently multiplexing concurrent TCP flows, our coupled congestion control alleviates the effects of queueing, and tends to result in a more efficient usage of available bandwidth, where the flows’ aggregate capacity share can be apportioned based on application preferences. Participant organisation name Short name Simula Research Laboratory AS (Coordinator) SRL Celerway Communication AS Celerway EMC Information Systems International EMC MZ Denmark APS Mozilla Karlstads Universitet KaU Fachhochschule Münster FHM The University Court of the University of Aberdeen UoA Universitetet i Oslo UiO Cisco Systems France SARL Cisco 2 of 72 Project no. 644334 D3.2 Final Report on Transport Protocol Enhancements Confidential Rev. 1.0/ June 15, 2017


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