Use Cases and Operational Experience with Multipath TCP

This document discusses both use cases and operational experience with Multipath TCP (MPTCP) in real networks. It lists several prominent use cases where Multipath TCP has been considered and is being used. It also gives insight to some heuristics and decisions that have helped to realize these use cases and suggests possible improvements.

[1]  Erich M. Nahum,et al.  A measurement-based study of MultiPath TCP performance over wireless networks , 2013, Internet Measurement Conference.

[2]  Olivier Bonaventure,et al.  SMAPP: towards smart multipath TCP-enabled applications , 2015, CoNEXT.

[3]  Olivier Bonaventure,et al.  Poster: Evaluating Android Applications with Multipath TCP , 2015, MobiCom.

[4]  Yu Cao,et al.  Delay-based congestion control for multipath TCP , 2012, 2012 20th IEEE International Conference on Network Protocols (ICNP).

[5]  Olivier Bonaventure,et al.  An enhanced socket API for Multipath TCP , 2016, ANRW '16.

[6]  Olivier Bonaventure,et al.  Observing real smartphone applications over multipath TCP , 2016, IEEE Communications Magazine.

[7]  Olivier Bonaventure,et al.  Are TCP extensions middlebox-proof? , 2013, HotMiddlebox '13.

[8]  Mark Handley,et al.  Improving datacenter performance and robustness with multipath TCP , 2011, SIGCOMM 2011.

[9]  Mark Handley,et al.  Data center networking with multipath TCP , 2010, Hotnets-IX.

[10]  Mark Handley,et al.  Is it still possible to extend TCP? , 2011, IMC '11.

[11]  Sherali Zeadally,et al.  Ancillary Impacts of Multipath TCP on Current and Future Network Security , 2015, IEEE Internet Computing.

[12]  Erich M. Nahum,et al.  Cross-layer path management in multi-path transport protocol for mobile devices , 2014, IEEE INFOCOM 2014 - IEEE Conference on Computer Communications.

[13]  Randy Bush,et al.  From Paris to Tokyo: on the suitability of ping to measure latency , 2013, Internet Measurement Conference.

[14]  Olivier Bonaventure,et al.  Revealing middlebox interference with tracebox , 2013, Internet Measurement Conference.

[15]  Ramin Sadre,et al.  Observing real Multipath TCP traffic , 2016, Comput. Commun..

[16]  Olivier Bonaventure,et al.  On the benefits of applying experimental design to improve multipath TCP , 2013, CoNEXT.

[17]  Steven H. Low,et al.  Multipath TCP: Analysis, Design, and Implementation , 2013, IEEE/ACM Transactions on Networking.

[18]  Özgü Alay,et al.  Experimental evaluation of multipath TCP schedulers , 2014, CSWS@SIGCOMM.

[19]  Olivier Bonaventure,et al.  Multipath TCP , 2014 .

[20]  Olivier Bonaventure,et al.  Multipath TCP : An annotated bibliography , 2015 .

[21]  Christoph Paasch,et al.  Making Multipath TCP robust for stateless webservers , 2015 .

[22]  Olivier Bonaventure,et al.  Exploring mobile/WiFi handover with multipath TCP , 2012, CellNet '12.

[23]  Albert G. Greenberg,et al.  Towards a next generation data center architecture: scalability and commoditization , 2008, PRESTO '08.

[24]  Mark Handley,et al.  Design, Implementation and Evaluation of Congestion Control for Multipath TCP , 2011, NSDI.

[25]  Jim Euchner Design , 2014, Catalysis from A to Z.

[26]  Mark Handley,et al.  How Hard Can It Be? Designing and Implementing a Deployable Multipath TCP , 2012, NSDI.

[27]  Christoph Paasch,et al.  Improving Multipath TCP , 2014 .

[28]  Christian E. Hopps,et al.  Analysis of an Equal-Cost Multi-Path Algorithm , 2000, RFC.

[29]  Behnaz Arzani,et al.  Impact of Path Characteristics and Scheduling Policies on MPTCP Performance , 2014, 2014 28th International Conference on Advanced Information Networking and Applications Workshops.