Pakistan Journal of Engineering & Technology (Mar 2023)

Hybrid Learning based Radio Resource Management in 5G Heterogeneous Networks

  • Muhammad Usman Iqbal,
  • Ejaz Ahmad Ansari,
  • Saleem Akhtar,
  • Muhammad Nadeem Rafiq,
  • Muhammad Farooq-i-Azam,
  • Beenish Hassan

DOI
https://doi.org/10.51846/vol6iss1pp92-97
Journal volume & issue
Vol. 6, no. 1

Abstract

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Ultradensification using different types of small cells (SCs) is one of the key enabling solutions to meet the multiple stringent requirements of 5G cellular networks. However, radio resource management (RRM) in ultra-dense heterogeneous networks (HetNets) is not easy due to interferences in multi-tiered architecture and dynamic network conditions. Interferences in 5G HetNets can be efficiently managed only through the techniques which are adaptive and self-organizing to handle dynamic conditions in 5G HetNets. In this article, a machine learning (ML) based self-adaptive resource allocation scheme is proposed based on the combination of independent and cooperative learning and evaluated for ultra-dense 5G HetNets. The proposed scheme aims to improve the QoS of all users associated with different network tiers in ultra-dense HetNets simultaneously. The proposed solution adaptively optimizes the SCs transmit power either through independent learning or cooperative learning based on the varying density of small cells to minimize the interferences and ensure minimum QoS requirements for all users in different network tiers. The proposed scheme not only maintains the minimum required capacities for QoS provision to all users simultaneously but has also shown a significant improvement in the capacities of users in different network tiers in high interference scenarios as compared to the use of a single learning scheme.

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