Improved 5G network slicing for enhanced QoS against attack in SDN environment using deep learning

Mohammed Salah Abood; Hua Wang; Bal S. Virdee; Dongxuan He; Maha Fathy; Abdulganiyu Abdu Yusuf; Omar Jamal; Taha A. Elwi; Mohammad Alibakhshikenari; Lida Kouhalvandi; Ashfaq Ahmad

doi:10.1049/cmu2.12735

IET Communications (Aug 2024)

Improved 5G network slicing for enhanced QoS against attack in SDN environment using deep learning

Mohammed Salah Abood,
Hua Wang,
Bal S. Virdee,
Dongxuan He,
Maha Fathy,
Abdulganiyu Abdu Yusuf,
Omar Jamal,
Taha A. Elwi,
Mohammad Alibakhshikenari,
Lida Kouhalvandi,
Ashfaq Ahmad

Affiliations

Mohammed Salah Abood: School of Information and Electronics Beijing Institute of Technology Beijing China
Hua Wang: School of Information and Electronics Beijing Institute of Technology Beijing China
Bal S. Virdee: Center for Communications Technology London Metropolitan University London UK
Dongxuan He: School of Information and Electronics Beijing Institute of Technology Beijing China
Maha Fathy: School of Information and Electronics Beijing Institute of Technology Beijing China
Abdulganiyu Abdu Yusuf: School of Computer Science and Technology Beijing Institute of Technology Beijing China
Omar Jamal: College of Information Technology University of Babylon Babylon Iraq
Taha A. Elwi: Islamic University Centre for Scientific Research The Islamic University Najaf Iraq
Mohammad Alibakhshikenari: Department of Signal Theory and Communications Universidad Carlos III de Madrid Leganés Madrid Spain
Lida Kouhalvandi: Department of Electrical and Electronics Engineering Dogus University Istanbul Turkey
Ashfaq Ahmad: Department of Chemistry, College of Science King Saud University Riyadh Kingdom of Saudi Arabia

DOI: https://doi.org/10.1049/cmu2.12735
Journal volume & issue: Vol. 18, no. 13
pp. 759 – 777

Abstract

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Abstract Within the evolving landscape of fifth‐generation (5G) wireless networks, the introduction of network‐slicing protocols has become pivotal, enabling the accommodation of diverse application needs while fortifying defences against potential security breaches. This study endeavours to construct a comprehensive network‐slicing model integrated with an attack detection system within the 5G framework. Leveraging software‐defined networking (SDN) along with deep learning techniques, this approach seeks to fortify security measures while optimizing network performance. This undertaking introduces network slicing predicated on SDN with the OpenFlow protocol and Ryu control technology, complemented by a neural network model for attack detection using deep learning methodologies. Additionally, the proposed convolutional neural networks‐long short‐term memory approach demonstrates superiority over conventional ML algorithms, signifying its potential for real‐time attack detection. Evaluation of the proposed system using a 5G dataset showcases an impressive accuracy of 99%, surpassing previous studies, and affirming the efficacy of the approach. Moreover, network slicing significantly enhances quality of service by segmenting services based on bandwidth. Future research will concentrate on real‐world implementation, encompassing diverse dataset evaluations, and assessing the model's adaptability across varied scenarios.

Published in IET Communications

ISSN: 1751-8628 (Print); 1751-8636 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Telecommunication
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17518636

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