Abstract
Network slicing in 5G is a solution to accommodate a wide range of services. It also enables the network operators to establish multiple end-to-end (e2e) logically isolated and customized networks with shared or dedicated resources over the same infrastructure. Although, many tools and platforms have been developed to accomplish the management and orchestration (MANO) of e2e network slicing automatically, it is still challenging. Each of these platforms requires expertise and manual effort to define the requirements for the provisioning of the resources. The other issue is the generation of well-defined network slice configurations with lifecycle parameters. To this end, this paper proposes an efficient solution that automates the configuration process and performs the management and orchestration of network slices. This solution contains a one-touch Intent-based Networking (IBN) platform that effectively orchestrates and manages the lifecycle of multi-domain slice resources. IBN automates the process of slice configuration generation, service provisioning, service update, and service assurance by eliminating experts and manual effort. Furthermore, it has an intelligent Deep Learning (DL) based resource update and assurance mechanism which handles the run-time resource scalability and assurance.
Highlights
The future 5G network will support a vast range of innovative services for customers, enterprises, various industrial verticals, government level demands, and virtual mobile network operators (MVNOs)
According to their different quality of service (QoS) requirements, these services are categorized as massive machine-type communications, enhanced mobile broadband, and ultra-reliable low latency (URLLC) [1], [2]
Intent-based networking (IBN) translates the received QoS requirements for a slice into policy configurations/slice templates through domain policy configurators and forwards them to underlying orchestrators to automatically activate resources over the infrastructure
Summary
The future 5G network will support a vast range of innovative services for customers, enterprises, various industrial verticals, government level demands, and virtual mobile network operators (MVNOs). According to their different quality of service (QoS) requirements, these services are categorized as massive machine-type communications (mMTC), enhanced mobile broadband (eMBB), and ultra-reliable low latency (URLLC) [1], [2]. 5G network fulfills these service requirements through a core technology called network slicing. Network slicing is not a new concept It has been supported in 4G networks. Its isolation level among multiple services is limited over the common physical infrastructure, such as multi-operator support for core network, multi-domain
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