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Name Possible Topic AreaTitle of Papers to Read
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 Atarah, Ivan ALeveraging SDN architecture for efficient and scalable IoT communications.1. Software Defined Networks: Redefining the Future
of Internet in IoT and Cloud era,
2.SDN based architecture for IoT and improvement of
the security, 3. Ethane: Taking Control of the Enterprise 4.Publish/Subscibe-enabled Software Defined Networking for efficient and scalable IoT Communications
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 Enberg, Pekka JNFV and Networking Performance1. ClickOS and and the Art of Network Function Virtualization 2. Network stack specialization for performance 3. Speeding up Packet I/O in Virtual Machines
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 Fang, ShuqingSDN and Cloud1. Meridian: An SDN Platform for Cloud Network Services. 2. Dynamic Graph Query Primitive for SDN-based Cloud Network Management. 3. A management Method of IP Multicast in Overlay Networks using OpenFlow 4. Applying NOX to the Datacenter.
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 Hafeez, IbbadSDN in "BigData" processing clusters/data-centers1. Managing Data Transfers in Computer Clusters with Orchestra
2. Programming your network at Run-time for Big Data Applications
3. Transperent and flexible network management for Big Data processing in the cloud
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 Haider, AkkasPotential role of SDN in securing (Small/Medium/Enterprise) networks1. SENSS: observe and control your own traffic in the internet
2. Making middleboxes someone else's problem: network processing as a cloud service
3. A Survey of Securing Networks Using Software Defined Networking
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 Holopainen, Heikki JNFV Management and Orchestration (MANO), NFVI, Hypervisors1. Cloud4NFV: A platform for Virtual Network Functions 2.
The SDN/NFV Cloud Computing platform and transport network of the ADRENALINE testbed
3. Industry Harmonization for Unified Standards on Autonomic Management & Control (AMC) of Networks and Services, SDN and NFV
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 Hätönen, Seppo J Kovs, middleboxes and controller, wireless (closer to hardware, wifi)1. ÆtherFlow: Principled Wireless Support in SDN
2. OpenRoads: Empowering research in mobile networks
3. BeHop: a testbed for dense WiFi networks)
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 Kapoor, ShubhamAnalysing reliabilty of current security protocols available for SDN in a hetrogenous ecosystem1.Ethane: Taking Control of the Enterprise, Martìn Casado, Michael J. Freedman, Justin Pettit, Jianying Luo, Nick McKeown, Scott Shenker, Sigcomm 2007
2.Resonance: Dynamic Access Control in Enterprise Networks, Ankur Nayak, Alex Reimers, Nick Feamster, Russ Clark, WREN 2009
3.OpenFlow Random Host Mutation: Transparent Moving Target Defense using Software Defined Networking, Jafar Haadi Jafarian, Ehab Al-Shaer, Qi Duan, HotSDN 2012
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 Mahmood, Syed S UFeatures of SDN and NFV service environment. Need and availability of technology
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 Ojala, Frans O Isecurity of control plane, focus on openflow?Securing the Software-Defined Network Control Layer
OpenFlow- A Security Analysis
A Security Enforcement Kernel for OpenFlow Networks
Towards Secure and Dependable Software-Defined Networks
FRESCO/ Modular Composable Security Services for Software-Defined Networks
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 Pasogias, JuanLanguages behind programming the SDN1.Languages for Software-Defined Networks 2.A Compiler and Run-time System for Network Programming Languages 3.Modular SDN Programming with Pyretic
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 Pozza, Matteosdn in wireless scenario (cellular networks)Blueprint for Introducing Innovation into Wireless Mobile Networks
Wireless Software Defined Networks: Challenges and Opportunities
Toward Software-Defined Cellular Networks
MobileFlow: Toward Software-Defined Mobile Networks
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 Shrestha, Shiva RTowards robustness in SDN Control Plane 1.Pankaj Berde, Matteo Gerola, Jonathan Hart, Yuta Higuchi, Masayoshi Kobayashi, Toshio Koide, Bob Lantz, Brian O'Connor, Pavlin Radoslavov, William Snow, and Guru Parulkar. 2014. ONOS: towards an open, distributed SDN OS. In Proceedings of the third workshop on Hot topics in software defined networking (HotSDN '14). ACM, New York, NY, USA, 1-6. DOI=10.1145/2620728.2620744 http://doi.acm.org/10.1145/2620728.2620744
2.Advait Dixit, Fang Hao, Sarit Mukherjee, T.V. Lakshman, and Ramana Kompella. 2013. Towards an elastic distributed SDN controller. In Proceedings of the second ACM SIGCOMM workshop on Hot topics in software defined networking (HotSDN '13). ACM, New York, NY, USA, 7-12. DOI=10.1145/2491185.2491193 http://doi.acm.org/10.1145/2491185.2491193
3. Onix: A Distributed Control Platform for Large-scale Production Networks		l
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 Suomalainen, Lauri Jcloud for middleboxes
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 Wang, LeiSDN for clouds1. SDN for Inter Cloud Networking 2. A SDN-based network architecture for cloud resiliency. 3.An SDN-based cloud computing architecture and its mathematical model
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 Värä, IdaSDN and Cloud Examples1. W. Paim de Jesus. D. Alves da Silva, R. T. de Sousa Junior, F. V. Lopes da Frota, "Analysis of SDN contributions for Cloud Computing Security", UCC '14 Proceedings of the 2014 IEEE/ACM 7th International Conference on Utility and Cloud Computing Pages 922-927, 2014.
2.K. Wang, M. Shen, J. Cho, A. Banerjee, J. Van der Merwe, K. Webb, "MobiScud: A Fast Moving Personal Cloud in the Mobile Network", AllThingsCellular '15 Proceedings of the 5th Workshop on All Things Cellular: Operations, Applications and Challenges Pages 19-24, 2015.
3. L. Fang, F. Chiussi, D. Bansal, V. Gill, T. Lin, J. Cox, G. Ratterree, "Hierarchical SDN for the Hyper-Scale, Hyper-Elastic Data Center and Cloud", SOSR '15 Proceedings of the 1st ACM SIGCOMM Symposium on Software Defined Networking Research Article No. 7, 2015.
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 Zhang, Yumulti-tenant load balancer service,performance1.Load Balancer as a Service in Cloud Computing
2.Performance evaluation of a wired network with & without Load Balancer and Firewall
3.Load Balancing in a Campus Network Using Software Defined Networking
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