Abstract
Fifth-Generation (5G) mobile cellular networks provide a promising platform for new, innovative and diverse IoT applications, such as ultra-reliable and low latency communication, real-time and dynamic data processing, intensive computation, and massive device connectivity. End-to-End (E2E) network slicing candidates present a promising approach to resource allocation and distribution that permit operators to flexibly provide scalable virtualized and dedicated logical networks over common physical infrastructure. Though network slicing promises the provision of services on demand, many of its use cases, such as self-driving cars and Google's Stadia, would require the integration of a Multi-Access Edge Computing (MEC) platform in 5G networks. Edge Computing is envisioned as one of the key drivers for 5G and Sixth-Generation (6G) mobile cellular networks, but its role in network slicing remains to be fully explored. We investigate MEC and network slicing for the provision of 5G service focused use cases. Recently, changes to the cloud-native 5G core are a focus with MEC use cases providing network scalability, elasticity, flexibility, and automation. A cloud-native microservices architecture, along with its potential use cases for 5G network slicing, is envisioned. This paper also elaborates on the recent advances made in enabling E2E network slicing, its enabling technologies, solutions, and current standardization efforts. Finally, this paper identifies open research issues and challenges and provides possible solutions and recommendations.
Highlights
AS envisioned by the network operators, Fifth Generation (5G) mobile cellular networking takes communications closer to the vision of the Internet of Everything (IoE) [1], [2]. 5G networks are envisioned to support the Internet of Things (IoT) and the emerging vertical industries [2]
Network slicing based on Multi-Access Edge Computing (MEC), Software Defined Networking (SDN), Network Function Virtualization (NFV) and a cloudnative 5G core is emerging as a key enabling technology for 5G network operators and service providers to achieve new revenue opportunities and provide new and innovative customized services on demand
This paper investigates the recent efforts and progress made in realizing E2E network slicing, its key enabling technologies such as NFV for virtualization support, MEC for Ultra-Reliable and Low Latency Communication (URLLC) services, cloud-native 5G core for service automation and SDN for dynamic service chaining and VNF management
Summary
AS envisioned by the network operators, Fifth Generation (5G) mobile cellular networking takes communications closer to the vision of the Internet of Everything (IoE) [1], [2]. 5G networks are envisioned to support the Internet of Things (IoT) and the emerging vertical industries [2]. The authors in [7] present a detailed review and analysis on the topic of network slicing They do not consider, in detail, enabling slice federation among multiple administrative domains, new transport-layer mechanisms, MEC integration, and the cloud-native solutions for the automation of the 5G mobile core. E2E NETWORK SLICING Network slicing is the integration of a set of technologies to create customizable and specialized dedicated logical Networks as a Service (NaaS) in order to meet diverse and heterogeneous requirements from vertical industries It involves efficient virtualization and isolation mechanisms, customized and flexible functions design, and Operation and Maintenance (O&M) tools to provide dedicated logical networks upon a shared infrastructure [2].
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