PhD in 5G Network Slicing Using SDN and NFV

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PhD in 5G Network Slicing Using SDN and NFV

Network Slicing in 5G networks will provide a lot of research attentions in recent times, as it allows addressing different requirements for the latency, throughput, capacity, and availability over the certain common physical network infrastructure and thus supporting diverse services, and business models. As part of the controlling efforts pushing for a better source integration within 5G networks, extending support for network slicing into the control component stands out as one important must-have feature based on 5G network slicing using SDN and NFV.


The introduction of Software Defined Networking (SDN) and Network Function Virtualization (NFV) technologies within the satellite ground segment networks is an important approach. In 5G network slicing that each networks slice are isolated to certain network to fulfill the various requirements that are requested by a certain application.SDN and NFV will provide proper network flexibility throughout the network architectures into several virtual-based elements. Based  on 5G network slicing using SDN and NFV control separates control plane module function from data plane module to enable properly centralized, flexible, and programmable management of the certain network through 5G network slicing using SDN and NFV.

PhD in 5G Network Slicing Using SDN and NFV


  • The major issue is the implementation of a customized x86-based server which has a huge initial CAPEX and restricted vendor selection process.
  • Communicative devices need an enhanced service availability based on the high-speed network connectivity in their proposed zone.
  • The certain latest developments in NS are creating several algorithmic challenges for the future developing network operation.
  • Lack of multiplexing benefits in the radio resource scheduling allocation then the spectrum is partitioned disjoint.


  • A single network will be used to offer certain services based on the concern requirement of the user and various use cases.
  • Network slicing will enables concern operators to create networks and thus it is customized to provide the optimized solution.
  • M-CORD employs SDN, NFV to provide stable service to carriers developing 5G wireless mobile networks.
  • The SDN control solution for automatic operation and management of service in a concern mobile convergent packet as optical 5G network is proposed.


  • The realization of orchestration algorithm is applied for controlling the decisions and different mechanisms subjective to end-users.
  • Intelligent security is based on an auto-scaling algorithm that leverages the SDN and NFV architecture to enable slice security by using the SDN controller (ONOS).
  • A novel algorithm RA will allocate the NS by implementing the concerned branch and bound method for obtaining the optimal solution.
  • An Intelligent scheduling algorithm will allocate the scheduled resource among these network slices.


  • In the future, to investigate the scalability and effectiveness of QoE-aware collaborative service management along with standardizing the interface in a network to collaborative service management based on previous proposed 5G network slicing using SDN and NFV

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