A survey on SDN, the future of networking

  • Authors

    • Shiva Rowshanrad shiraz university of technology (SUTECH)
    • Sahar Namvarasl shiraz university of technology (SUTECH)
    • Vajihe Abdi shiraz university of technology (SUTECH)
    • Maryam Hajizadeh shiraz university of technology (SUTECH)
    • Manijeh Keshtgary shiraz university of technology (SUTECH)
    2014-11-29
    https://doi.org/10.14419/jacst.v3i2.3754
  • Control Plane, Data Plane, Programmable Network, OpenFlow, Software Defined Network.
  • Software Defined Networking (SDN) is an emerging architecture which decouples networks control plane and data plane physically. It makes control plane programmable trough a centralized controller, and builds intelligent and flexible networks. The OpenFlow is one of the most famous SDN protocols, which acts as a southbound interface between control plane and data plane. In this survey, SDN implementation approaches and different southbound interfaces, beside different version of OpenFlow, are introduced. In addition to general architecture of SDN, different wireless architectures are discussed. Here, also potential SDN’s applications and research areas including hot topics such as Information Centric Networks, Cloud and datacenters, multimedia, wireless and mobile networks over SDN are reviewed.

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    108. P. Barham, B. Dragovic, K. Fraser, S. Hand, T. Harris, A. Ho, et al., "Xen and the Art of Virtualization", Proceedings of the nineteenth ACM symposium on Operating systems principles, Vol.37, (2003), pp:164-177, available online: http://dx.doi.org/10.1145/1165389.945462, last visit:17.10.2014.
    109. J. Hurwitz, A. Nugent, F. Halper, and M. Kaufman, Big Data for Dummies, John Wiley & Sons, Inc., (2013), pp:7-35.
    110. C. Baker, A. Anjum, R. Hill, N. Bessis, and S. L. Kiani, "Improving Cloud Datacenter Scalability, Agility and Performance using OpenFlow", Proceedings of 4th IEEE International Conference on Intelligent Networking and Collaborative Systems (INCoS), (2012), available online: http://dx.doi.org/10.1109/iNCoS.2012.118, last visit:17.10.2014.
    111. Oracle SDN (Software Defined Network), (2013), Available online: http://www.oracle.com/us/products/networking/virtual-networking/sdn/overview/index.html, last visit:17.10.2014.
    112. R. Raghavendra, J. Lobo, and K.-W. Lee, "Dynamic Graph Query Primitives for SDN-based Cloud Network Management", Proceedings of the first workshop on Hot topics in software defined networks, (2012), pp.97-102, available online: http://dx.doi.org/ 10.1145/2342441.2342461, last visit:17.10.2014.
    113. M. Al-Fares, S. Radhakrishnan, B. Raghavan, N. Huang, and A. Vahdat, "Hedera: Dynamic Flow Scheduling for Data Center Networks", Proceedings of 7th USENIX conference on Networked systems design and implementation, (2010), available online: http://dl.acm.org/citation.cfm?id=1855730, last visit:17.10.2014.
    114. H. Yang, J. Zhang, Y. Zhao, H. Li, S. Huang, Y. Ji, et al., "Cross Stratum Resilience for OpenFlow-enabled Data Center Interconnection with Flexi-Grid Optical Networks", Optical Switching and Networking, Vol.11, (2014), pp:72-82, available online: http://dx.doi.org/10.1016/j.osn.2013.10.001, last visit:17.10.2014.
    115. J. Suh, H. Choi, W. Yoon, T. You, T. Kwon, and Y. Choi, "Implementation of a Content-oriented Networking Architecture (CONA): A Focus on DDoS Countermeasure", Proceedings of European NetFPGA developers workshop, (2010).
    116. C. YuHunag, T. MinChi, C. YaoTing, C. YuChieh, and C. YanRen, "A Novel Design for Future on-demand Service and Security", Proceedings of 12th IEEE International Conference on Communication Technology, (2010), pp:385-388, available online: http://dx.doi.org/10.1109/ICCT.2010.5689156, last visit:17.10.2014.
    117. J. H. Jafarian, E. Al-Shaer, and Q. Duan, "Openflow Random Host Mutation: Transparent Moving Target Defense using Software Defined Networking", Proceedings of the first workshop on Hot topics in software defined networks, (2012), pp:127-132.
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    119. Y. Juba, H.-H. Huang, and K. Kawagoe, "Dynamic Isolation of Network Devices Using OpenFlow for Keeping LAN Secure from Intra-LAN Attack", Procedia computer science, vol. 22, pp: 810-819, (2013), available online: http://dx.doi.org/ 10.1016/j.procs.2013.09.163, last visit: 17.10.2014.
    120. K. Giotis, C. Argyropoulos, G. Androulidakis, D. Kalogeras, and V. Maglaris, "Combining OpenFlow and sFlow for an Effective and Scalable Anomaly Detection and Mitigation Mechanism on SDN Environments", Computer Networks, (2013), available online: http://dx.doi.org/ 10.1016/j.bjp.2013.10.014, last visit:17.10.2014.
    121. P. Phaal, "sFlow Specification Version 5", (2004), available online: http://sflow.org/sflow_version_5.txt, last visit: 17.10.2014.
    122. H. T. T. Luo, and T. Quek, "Sensor openflow: Enabling software defined wireless sensor networks", IEEE Communications Letters, Vol.16, No. 11, (2012), pp. 1896-1899, available online: http://dx.doi.org/10.1109/LCOMM.2012.092812.121712, last visit: 18.10.2014.
    123. A. K. P. Dely, and N. Bayer, "Openflow for wireless mesh networks", Proceedings of the Computer Communications and Networks, (2011), pp. 1-6, available online: http://dx.doi.org/10.1109/ICCCN.2011.6006100, last visit: 18.10.2014.
    124. Y. S. P. Baskett, W. Zeng, and B. Guttersohn, "SDNAN: Software Defined Networking in Ad hoc Networks of Smartphones", Proceedings of the Consumer Communications and Networking Conference, (2013), pp. 861-862, http://dx.doi.org/10.1109/CCNC.2013.6488568, last visit: 18.10.2014.
    125. Open Networking Foundation, "Wireless & Mobile", available online: https://www.opennetworking.org/images/stories/downloads/working-groups/charter-wireless-mobile.pdf, last visit:18.10.2014.
    126. Security Challenges in SDN (Software-defined Networks). available online: http://www.sdncentral.com/security-challenges-sdn-software-defined-networks/, last visit:18.10.2014.
    127. M. Caesar, D. Caldwell, N. Feamster, J. Rexford, A. Shaikh, and J. van der Merwe, "Design and implementation of a routing control platform," Proceedings of the 2nd conference on Symposium on Networked Systems Design & Implementation, Vol.2, (2005), pp.15-28, available online: https://www.usenix.org/legacy/events/nsdi05/tech/full_papers/caesar/caesar_html/, last visit:18.10.2014.
    128. R. Oshana and S. Addepalli, "Networking Trends-Software Defined Networking, Network Virtualization and Cloud Orchestration," Asia Power Arch. Conf, (2012), available online: https://www.power.org/wp-content/uploads/2012/10/13.-FSL-SDN-Openflow-and-Cloud-computing-UPD_Rob-Oshana.pdf, last visit:18.10.2014.
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    Rowshanrad, S., Namvarasl, S., Abdi, V., Hajizadeh, M., & Keshtgary, M. (2014). A survey on SDN, the future of networking. Journal of Advanced Computer Science & Technology, 3(2), 232-248. https://doi.org/10.14419/jacst.v3i2.3754