Practical approach to 5G Network slicing

This video program is a part of the Premium packages:

Practical approach to 5G Network slicing


  • IEEE MemberUS $1.00
  • Society MemberUS $0.00
  • IEEE Student MemberUS $1.00
  • Non-IEEE MemberUS $2.00
Purchase

  • IEEE MemberUS $50.00
  • Society MemberUS $0.00
  • IEEE Student MemberUS $25.00
  • Non-IEEE MemberUS $100.00
Purchase

Practical approach to 5G Network slicing

0 views
  • Share

5G Network slicing enables operators to configure virtual network instances and stitch together, instantiated automatically and optimized to meet specific functional requirements of a subscriber or application. Network slicing requires optimal deployment of user requirements and network functions and resource exclusivity on end-to-end 5G infrastructures to provide desired quality of service. As part of network slicing designer need to stitch slice business requirements, networks resource availability in entire chain, user equipment subscription and policy mapping and develop slice instantiation procedures. Network slicing can be achieved by various ways depending on 5G network functions such as Network Slice Selection Function (NSSF), User Equipment Route Selection policy (URSP), Slice or Service type (SST) and Slice Differentiator (SD) which need to be carefully planned to achieve desired outcome. The tutorial will provide a practical design approach towards network slice design on core network aspect. We will start with network slice overview followed by design criteria and input requirements. We will deepdive into relevant policies, application binding and mapping to slice, network functions selection criteria using Callflow walkthrough for slice combinations. In summary the speakers will share their experience with participants on how to realize networking slicing from theory to practical approach. The session will also help participants how to optimize and design network resources for successful deployment of network slices.

Practical approach to 5G Network slicing

Prakash Suthar (Cisco Systems, USA); Rajaneesh Sudhakar Shetty (Cisco Systems Inc., India); Vivek Agarwal (Cisco Systems Inc., USA)

Advertisment

Advertisment