Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/5120
Title: Resources allocation for hybrid cloud-edge computing in 5G network slicing
Authors: Molefe, Mlungisi 
Sibiya, Khulekani 
Nleya, Bakhe 
Editors: Smuts, Martin 
Taute, Anton 
Keywords: Network slicing;Edge computing;Cloud;Latency;5G;Resources allocation
Issue Date: 1-Sep-2023
Publisher: TELKOM
Source: Molefe, M., Sibiya, K. and Nleya, B. 2023.Resources allocation for hybrid cloud-edge computing in 5G network slicing. 2023 SATNAC Proceedings. Presented at: Southern Africa Telecommunication Networks and Applications Conference (SATNAC) 2023. 1(1): 137-143 (7).
Conference: Southern Africa Telecommunication Networks and Applications Conference (SATNAC) 2023 
Abstract: 
In typical heterogeneous networks such as 5G and beyond, innovative technologies such as edge computing and network slicing can enhance overall network performance in terms of handling critical mission services as they often require extremely low latencies. Notably, network slicing facilitates the provisioning of virtual slices with different characteristics to serve different end-user requirements. The Network operator achieves this goal by utilizing the already existing physical wireless network
resource. Current resource provisioning schemes suffer inadequacies in scalability and flexibility Thus to support both Cloud and Edge Computing in 5G and beyond networking, the work herein proposes a novel low latency scheme that affords dynamic and intelligent allocation of multi-dimensional resources. It bases on a Hybrid Cloud-edge Network Slicing (HCENS) architecture on leveraging both Cloud and Edge Computing The proposed scheme creates a flexible, scalable as well as energy efficient
resource provisioning. Its architecture comprises both centralized units (CUs) and distributed units (DUs). These provide storage, that in turn enhances function partitioning for various network slices. Several agent-based simulations scenarios are carried out in
evaluating the efficacy of the proposed scheme. Obtained analytical and simulation results indicate drastic reductions in network latencies for critical mission end user services. This couples with reductions in storage requirements.
URI: https://hdl.handle.net/10321/5120
ISBN: 978-0-7961-1044-2
Appears in Collections:Research Publications (Engineering and Built Environment)

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