PhD SDN Projects

PhD SDN Projects

      PhD SDN projects are a refreshing service that serves as a hotspot for like-minded intelligent professional experts from the nook and corner of the world to come together and explore their ideas. Our noble motive behind this service is to guide scholars by providing them with exceptional and fascinating PhD SDN projects and full-fledged projects based on these topics. PhD SDN projects are a gold mine or any scholars who wants to base their project on a recent topic with abundant research prominence. Our PhD SDN projects are responsible for successfully establishing nearly 2000+ PhD SDN projects for clients who are culturally diverse as they hail from 120+ countries of the world. The standard and quality of our projects are celebrated by both international and national scholars alike, which can be adapted to fit your requests.  We are like hard working miners who won’t stop until we see the first sight of gold, which is apt research topic with relevance. You can easily contact us as we are just one mail away from you. You can gain experience as well as expertise by becoming part of our organization.

PhD SDN Projects

     PhD SDN Projects brought laurels to our clients. Our projects served as their foremost firm step in the path of our scholars’ road to success. It is an advanced networking tool that manages networks which can divide forwarding plane and control plane. As a result the control plane is capable of controlling several devices. It is often described as a complementary approach for NFV. It contains various network technologies that can create more agile and flexible networks, which in turn supports a virtualized server of modern data centre and storage infrastructure.

Key Features of SDN:

  • Delivers agility and flexibility by reducing CapEx
  • Additional benefits are provided such as automated load balancing, on demand provisioning, ability to scale network resources in lockstep and streamlined physical infrastructure.
  • Pyretic, Kinetic, Ox, python are the programming languages used
  • Contains SDN controller, Northbound API and Southbound APIs
  • It can be directly programmed and managed by centralization
  • Algorithmic control of Network elements are enabled
  • It support for network path trace and impairment
  • OpenFlow support at 1.0 and 1.3
  • Foremost obstacles that occur:

            -Incorporated service context

               -Rapid on-demand growth accommodation

               -Dynamic real time changes are addressed

SDN Supported Simulators/Tools:

  • Mininet-Wifi is a SDN emulator support for Wi-Fi Network
  • NetIDE helps in developing SDN applications
  • ESTINET is a Openflow Network simulator and emulator
  • STS is a SDN troubleshooting simulator
  • SDN Controllers contains OpenContrail SDN controller, FlowVisor, RYU and many more
  • MaxiNet supports for Distributed Emulation of Software defined networks
  • Openday light controller
  • OpenFlow Virtual Machine Simulation
  • NS3 is described as C++/python based network simulator that supports emulation for Openflow environment
  • POX with GEPHI helps in the virtualization of SDN topologies
  • Mininet Network Simulator consists of Mininet with POX, Mininet with NS3, Mininet with RYU and pyretic,MiniNExt
  • NetVis is  aids to visualize network built with OpenFlow switches
  • CloudSimSDN used to modeling and simulation of software defined cloud networking

Open Flow Protocol Used in SDN:

  • SDN architecture open flow is a communication interface present in the midst of control plane and data plane.
  • Flow based control is supplied in a centralized manner.
  • It allows manipulation and direct access for a range of network devices namely switches and routers.
  • It aids in performing remote communication along with network plane elements for the function of path determination of network packets across network determination.
  • It is used foremost for protocol of device interface and switching controllers.

Open Flow Controller Supported By SDN:

  • Mirage makes uses Exokernel to develop a high performance, secure network applications across a selection of Mobile and cloud computing platforms
  • MUL is a Multi threaded C based open flow SDN controller
  • TREMA uses Full stack framework in C/Ruby for developing Open Flow controller
  • IRIS is a Java based controller helps in the process of scalability and high availability
  • Wakame VDC supports IAAS platform that helps open flow for Networking portion
  • Floodlight is a Java based Beacon controller
  • NICE-OF helps in testing Open Flow controller applications based on NOX controller platform
  • BEACON is a Extensible Java based Open flow controller
  • Oflops is a form of Open flow operations per second-C based standalone controller
  • NOX is a Network operating system that provides control and visibility of Open flow switches that are written in Python and C++
  • Resonance aids Network access control applications built using Open Flow and NOX
  • NEC Programmable Flow supports Open flow versions 1.3 and 1.0
  • Brocade SDN Controller is based on Open Daylight’s Helium release
  • HELIOS is an extensible C-based Open flow controller
  • ENVI acts as a GUI framework for any Open Flow related networking visualization
  • Flowvisor serves special purpose as Open Flow controller (JAVA)
  • MAESTRO an extensible java based Open flow controller
  • BigSwitch is a Beacon based on closed source controller
  • SNAC acts as a controller for production enterprise networks
  • RouteFlow provides virtualized IP routing service over Open flow enabled hardware
  • SNAC is a unique Open flow controller built on NOX and written in C++
  • FlowScale helps in distributing traffic over multiple physical switch ports
  • OFTest is a Python based Open Flow switch test framework and test cases
  • IronFlow helps to send Map data from Open Flow controller into MAP infrastructure

Important Areas for Research:

  • Software defined Mobile Networks
  • Software defined Cognitive Networking
  • Software defined wireless Networking
  • Software defined Networking in WAN
  • Multicast over SDN with Openflow
  • Proactive failure recovery in OpenFlow based SDN
  • Cloud computing using SDN
  • QOS Routing and anomaly detection
  • Intrusion detection and protection systems
  • Wireless Mesh Software defined Network
  • Programmable firewall using Software defined Networking
  • Policy based security using Software defined Networking
  • State distribution tradeoffs in software defined networking
  • Routing control platforms of software defined networking
  • Scalable offloading of control application in software defined networking

       The introduction regarding PhD SDN projects have highlighted all the most important features of Software defined networking for scholars. For more guidance, contact us as our experts are always available to serve you at 24/7. Our experts will frame you a thesis that will bring you soaring grades and it will enhance your career profile. So register now and experience a remarkable guidance.

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