Resource allocation in <scp>5G cloud‐RAN</scp> using deep reinforcement learning algorithms: A review

Khani, Mohsen; Jamali, Shahram; Sohrabi, Mohammad Karim; Sadr, Mohammad Mohsen; Ghaffari, Ali

doi:10.1002/ett.4929

Trans Emerging Tel Tech

2023

DOI: 10.1002/ett.4929

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Resource allocation in 5G cloud‐RAN using deep reinforcement learning algorithms: A review

Mohsen Khani,

Shahram Jamali,

Mohammad Karim Sohrabi

et al.

Abstract: This paper reviews recent research on resource allocation in 5G cloud‐based radio access networks (C‐RAN) using deep reinforcement learning (DRL) algorithms. It explores the potential of DRL for learning complex decision‐making policies without human intervention. The paper first introduces the C‐RAN architecture and resource allocation concepts, followed by an overview of DRL algorithms applied to C‐RAN. It discusses the challenges and potential solutions in applying DRL to C‐RAN resource allocation, includin… Show more

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2024

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Cited by 4 publications

References 128 publications

(198 reference statements)

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Slice admission control in 5G cloud radio access network using deep reinforcement learning: A survey

Khani,

Jamali,

Sohrabi

et al. 2024

Int J Communication

Self Cite

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SummaryThe emergence of 5G networks has increased the demand for network resources, making efficient resource management crucial. Slice admission control (SAC) is a process that governs the creation and allocation of virtualized network environments, known as “network slices,” which can be tailored to meet specific user requirements. However, traditional SAC methods face dynamic and heterogeneous challenges in wireless networks, especially in cloud radio access networks (C‐RANs). To address this issue, machine learning (ML) techniques, particularly deep reinforcement learning (DRL), have been proposed as powerful tools for optimizing SAC. DRL‐based approaches enable SAC systems to learn from previous interactions with the network environment and dynamically adapt to changing network conditions. This review article comprehensively explains the current state‐of‐the‐art DRL‐based SAC, focusing on C‐RANs. The article identifies key challenges and future research directions and highlights the potential benefits of using DRL for SAC, including improved network performance and efficiency. However, deploying these systems in real‐world scenarios presents several challenges and trade‐offs that need to be carefully considered. Further research and development are required to address these challenges and ensure the successful deployment of DRL‐based SAC systems in wireless networks.

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Slice admission control in 5G cloud radio access network using deep reinforcement learning: A survey

Khani,

Jamali,

Sohrabi

et al. 2024

Int J Communication

Self Cite

View full text Add to dashboard Cite

show abstract

Spectrum sharing optimization based on joint user cluster pairing scheme in CRN-NOMA systems

Thiyagarajan,

Kumar,

Renuka

2024

Int J Syst Assur Eng Manag

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ETFC: Energy-efficient and deadline-aware task scheduling in fog computing

Pakmehr,

Gholipour,

Zeinali

2024

Sustainable Computing: Informatics and Systems

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Resource allocation in 5G cloud‐RAN using deep reinforcement learning algorithms: A review

Cited by 4 publications

References 128 publications

Slice admission control in 5G cloud radio access network using deep reinforcement learning: A survey

Slice admission control in 5G cloud radio access network using deep reinforcement learning: A survey

Spectrum sharing optimization based on joint user cluster pairing scheme in CRN-NOMA systems

ETFC: Energy-efficient and deadline-aware task scheduling in fog computing

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