A network slicing algorithm for cloud-edge collaboration hybrid computing in 5G and beyond networks

Edge computing can effectively provide a promising solution with ultra-low latency for a variety of user-oriented services in 5G and beyond networks. The existing studies, however, are unable to provide a flexible resource allocation strategy for various network slices with different user demands in...

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Published inComputers & electrical engineering Vol. 109; p. 108750
Main Authors Jin, Jianzhi, Li, Ruiling, Yang, Xiaolian, Jin, Mengyuan, Hu, Fang
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2023
Subjects
5G and beyond networks
Edge-cloud collaboration
Hybrid computing
Network slicing algorithm
Resource allocation strategy
Resource allocation strategy
Edge-cloud collaboration
Hybrid computing
5G and beyond networks
Network slicing algorithm
Online AccessGet full text
ISSN0045-7906
1879-0755
DOI10.1016/j.compeleceng.2023.108750

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Abstract Edge computing can effectively provide a promising solution with ultra-low latency for a variety of user-oriented services in 5G and beyond networks. The existing studies, however, are unable to provide a flexible resource allocation strategy for various network slices with different user demands in edge computing. This paper proposes a new network slicing algorithm for cloud–edge collaboration hybrid computing (CECHC) in 5G and beyond networks. This algorithm designs a flexible and effective resource allocation strategy primarily for three network slices based on diversified requirements. Moreover, the CECHC model is designed with optimally distributed units (DUs) and centralized units (CUs) deployments to improve storage capability and computing power. This allows for more convenient function partitioning for different network slices. To validate the performance of the proposed algorithm, a series of agent-based simulations are conducted in various network models. The experimental results demonstrate that the proposed algorithm deployed in CECHC outperforms other network models, including fog computing (FC), multi-access edge computing (MEC), and the original CECHC models. It provides the lowest latency for various network slices and achieves all successful runs with different storage capabilities and computing power.
AbstractList Edge computing can effectively provide a promising solution with ultra-low latency for a variety of user-oriented services in 5G and beyond networks. The existing studies, however, are unable to provide a flexible resource allocation strategy for various network slices with different user demands in edge computing. This paper proposes a new network slicing algorithm for cloud–edge collaboration hybrid computing (CECHC) in 5G and beyond networks. This algorithm designs a flexible and effective resource allocation strategy primarily for three network slices based on diversified requirements. Moreover, the CECHC model is designed with optimally distributed units (DUs) and centralized units (CUs) deployments to improve storage capability and computing power. This allows for more convenient function partitioning for different network slices. To validate the performance of the proposed algorithm, a series of agent-based simulations are conducted in various network models. The experimental results demonstrate that the proposed algorithm deployed in CECHC outperforms other network models, including fog computing (FC), multi-access edge computing (MEC), and the original CECHC models. It provides the lowest latency for various network slices and achieves all successful runs with different storage capabilities and computing power.
ArticleNumber 108750
Author Hu, Fang
Jin, Mengyuan
Li, Ruiling
Jin, Jianzhi
Yang, Xiaolian
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Keywords Resource allocation strategy
Edge-cloud collaboration
Hybrid computing
5G and beyond networks
Network slicing algorithm
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Snippet Edge computing can effectively provide a promising solution with ultra-low latency for a variety of user-oriented services in 5G and beyond networks. The...
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StartPage 108750
SubjectTerms 5G and beyond networks
Edge-cloud collaboration
Hybrid computing
Network slicing algorithm
Resource allocation strategy
Title A network slicing algorithm for cloud-edge collaboration hybrid computing in 5G and beyond networks
URI https://dx.doi.org/10.1016/j.compeleceng.2023.108750
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