User menu

Multipath QUIC : Design and Evaluation

Bibliographic reference De Coninck, Quentin ; Bonaventure, Olivier. Multipath QUIC : Design and Evaluation.the 13th International Conference on emerging Networking EXperiments and Technologies - CoNEXT '17 (Incheon, Republic of Korea, du 12/12/2017 au 15/12/2017). In: Proceedings of the 13th International Conference on emerging Networking EXperiments and Technologies - CoNEXT '17, ACM Press2017
Permanent URL
  1. D. Wischik, C. Raiciu, A. Greenhalgh, and M. Handley. 2011. Design, Implementation and Evaluation of Congestion Control for Multipath TCP.. In NSDI'11.
  2. Wischik Damon, Handley Mark, Braun Marcelo Bagnulo, The resource pooling principle, 10.1145/1452335.1452342
  3. Stewart, R. (Ed.). 2007. Stream Control Transmission Protocol. (Sept. 2007). RFC4960.
  4. Santiago J., Claeys-Bruno M., Sergent M., Construction of space-filling designs using WSP algorithm for high dimensional spaces, 10.1016/j.chemolab.2011.06.003
  5. J. Roskind. 2013. QUIC(Quick UDP Internet Connections): Multiplexed Stream Transport Over UDP. Technical report, Google (2013).
  6. Dierks T., Rescorla E., The Transport Layer Security (TLS) Protocol Version 1.2, 10.17487/rfc5246
  7. E. Rescorla. 2017. The Transport Layer Security (TLS) Protocol Version 1.3. (April 2017). Internet draft, draft-ietf-tls-tls13-20.
  8. C. Raiciu, C. Paasch, S. Barre, A. Ford, M. Honda, F. Duchene, O. Bonaventure, and M. Handley. 2012. How hard can it be? designing and implementing a deployable multipath TCP. In NSDI'12. USENIX Association, 29--29.
  9. Radhakrishnan Sivasankar, Cheng Yuchung, Chu Jerry, Jain Arvind, Raghavan Barath, TCP fast open, 10.1145/2079296.2079317
  10. C. Pinedo. 2015. Improve active/backup subflow selection. (January 2015).
  11. Peng Qiuyu, Walid Anwar, Hwang Jaehyun, Low Steven H., Multipath TCP: Analysis, Design, and Implementation, 10.1109/tnet.2014.2379698
  12. Paasch Christoph, Khalili Ramin, Bonaventure Olivier, On the benefits of applying experimental design to improve multipath TCP, 10.1145/2535372.2535403
  13. Paasch Christoph, Ferlin Simone, Alay Ozgu, Bonaventure Olivier, Experimental evaluation of multipath TCP schedulers, 10.1145/2630088.2631977
  14. Paasch Christoph, Detal Gregory, Duchene Fabien, Raiciu Costin, Bonaventure Olivier, Exploring mobile/WiFi handover with multipath TCP, 10.1145/2342468.2342476
  15. C. Paasch, S. Barre, and et al. 2009--2017. Multipath TCP in the Linux Kernel. (2009-2017).
  16. Oh Bong-Hwan, Lee Jaiyong, Constraint-based proactive scheduling for MPTCP in wireless networks, 10.1016/j.comnet.2015.09.002
  17. Megyesi Peter, Kramer Zsolt, Molnar Sandor, How quick is QUIC?, 10.1109/icc.2016.7510788
  18. Lychev Robert, Jero Samuel, Boldyreva Alexandra, Nita-Rotaru Cristina, How Secure and Quick is QUIC? Provable Security and Performance Analyses, 10.1109/sp.2015.21
  19. I. Livadariu, S. Ferlin, Ö. Alay, T. Dreibholz, A. Dhamdhere, and A. Elmokashfi. 2015. Leveraging the IPv4/IPv6 identity duality by using multi-path transport. In Computer Communications Workshops (INFOCOM WKSHPS), 2015 IEEE Conference on. IEEE, 312--317.
  20. Livadariu Ioana, Elmokashfi Ahmed, Dhamdhere Amogh, Characterizing IPv6 control and data plane stability, 10.1109/infocom.2016.7524465
  21. Langley Adam, Iyengar Janardhan, Bailey Jeff, Dorfman Jeremy, Roskind Jim, Kulik Joanna, Westin Patrik, Tenneti Raman, Shade Robbie, Hamilton Ryan, Vasiliev Victor, Riddoch Alistair, Chang Wan-Teh, Shi Zhongyi, Wilk Alyssa, Vicente Antonio, Krasic Charles, Zhang Dan, Yang Fan, Kouranov Fedor, Swett Ian, The QUIC Transport Protocol : Design and Internet-Scale Deployment, 10.1145/3098822.3098842
  22. Khalili Ramin, Gast Nicolas, Popovic Miroslav, Upadhyay Utkarsh, Le Boudec Jean-Yves, MPTCP is not pareto-optimal : performance issues and a possible solution, 10.1145/2413176.2413178
  23. Kaspar Dominik, Multipath aggregation of heterogeneous access networks, 10.1145/2206765.2206770
  24. Kakhki Arash Molavi, Jero Samuel, Choffnes David, Nita-Rotaru Cristina, Mislove Alan, Taking a long look at QUIC : an approach for rigorous evaluation of rapidly evolving transport protocols, 10.1145/3131365.3131368
  25. J. Iyengar and I. Swett. 2015. QUIC: A UDP-Based Secure and Reliable Transport for HTTP/2. (July 2015). Internet draft, draft-tsvwg-quic-protocol-00.
  26. J. Iyengar and T. M. 2017. QUIC: A UDP-Based Multiplexed and Secure Transport. (June 2017). Internet draft, draft-ietf-quic-transport-04.
  27. Honda Michio, Nishida Yoshifumi, Raiciu Costin, Greenhalgh Adam, Handley Mark, Tokuda Hideyuki, Is it still possible to extend TCP?, 10.1145/2068816.2068834
  28. Handigol Nikhil, Heller Brandon, Jeyakumar Vimalkumar, Lantz Bob, McKeown Nick, Reproducible network experiments using container-based emulation, 10.1145/2413176.2413206
  29. R. Hamilton et al. 2016. QUIC: A UDP-Based Multiplexed and Secure Transport. (July 2016). Internet draft, draft-hamilton-quic-transport-protocol-00.
  30. Ha Sangtae, Rhee Injong, Xu Lisong, CUBIC : a new TCP-friendly high-speed TCP variant, 10.1145/1400097.1400105
  31. B. Ford and J. R. Iyengar. 2008. Breaking Up the Transport Logjam.. In HotNets. 85--90.
  32. A. Ford, C. Raiciu, M. Handley, and O. Bonaventure. 2013. TCP Extensions for Multipath Operation with Multiple Addresses. RFC 6824. (January 2013).
  33. Ferlin Simone, Alay Ozgu, Mehani Olivier, Boreli Roksana, BLEST: Blocking estimation-based MPTCP scheduler for heterogeneous networks, 10.1109/ifipnetworking.2016.7497206
  34. Fall Kevin, Floyd Sally, Simulation-based comparisons of Tahoe, Reno and SACK TCP, 10.1145/235160.235162
  35. M. Duke et al. 2015. A Roadmap for Transmission Control Protocol (TCP) Specification Documents. RFC7414. (February 2015).
  36. Dhamdhere Amogh, Luckie Matthew, Huffaker Bradley, claffy kc, Elmokashfi Ahmed, Aben Emile, Measuring the deployment of IPv6 : topology, routing and performance, 10.1145/2398776.2398832
  37. Deng Shuo, Netravali Ravi, Sivaraman Anirudh, Balakrishnan Hari, WiFi, LTE, or Both? : Measuring Multi-Homed Wireless Internet Performance, 10.1145/2663716.2663727
  38. De Coninck Quentin, Baerts Matthieu, Hesmans Benjamin, Bonaventure Olivier, A First Analysis of Multipath TCP on Smartphones, Passive and Active Measurement (2016) ISBN:9783319305042 p.57-69, 10.1007/978-3-319-30505-9_5
  39. Cui Yong, Li Tianxiang, Liu Cong, Wang Xingwei, Kuhlewind Mirja, Innovating Transport with QUIC: Design Approaches and Research Challenges, 10.1109/mic.2017.44
  40. L. Clemente et al. 2017. A QUIC implementation in pure go. (2017).
  41. S. Cheshire, D. Schinazi, and C. Paasch. 2017. Advances in Networking, Part 1. (June 2017).
  42. Chen Yung-Chih, Lim Yeon-sup, Gibbens Richard J., Nahum Erich M., Khalili Ramin, Towsley Don, A measurement-based study of MultiPath TCP performance over wireless networks, 10.1145/2504730.2504751
  43. Carlucci Gaetano, De Cicco Luca, Mascolo Saverio, HTTP over UDP : an experimental investigation of QUIC, 10.1145/2695664.2695706
  44. Ł. Budzisz, J. Garcia, A. Brunstrom, and R. Ferrús. 2012. A taxonomy and survey of SCTP research. ACM Computing Surveys (CSUR) 44, 4 (2012), 18.
  45. O. Bonaventure and S. Seo. 2016. Multipath TCP Deployments. IETF Journal (November 2016).
  46. A. Bittau, M. Hamburg, M. Handley, D. Mazieres, and D. Boneh. 2010. The Case for Ubiquitous Transport-Level Encryption.. In USENIX Security Symposium. 403--418.
  47. Beverly Robert, Brinkmeyer William, Luckie Matthew, Rohrer Justin P., IPv6 Alias Resolution via Induced Fragmentation, Passive and Active Measurement (2013) ISBN:9783642365157 p.155-165, 10.1007/978-3-642-36516-4_16
  48. Arzani Behnaz, Gurney Alexander, Cheng Sitian, Guerin Roch, Loo Boon Thau, Deconstructing MPTCP Performance, 10.1109/icnp.2014.47