TITLE:
A 5G Perspective of an SDN-Based Privacy-Preserving Scheme for IoT Networks
AUTHORS:
Isaac Appiah, Xiaoming Jiang, Edward Kwadwo Boahen, Ebenezer Owusu
KEYWORDS:
Internet of Things, 5G, SDNs, Security and Privacy, Intrusion, Network Communications
JOURNAL NAME:
International Journal of Communications, Network and System Sciences,
Vol.16 No.8,
August
17,
2023
ABSTRACT: The ever-increasing needs of Internet of Things networks (IoTn) present considerable issues in computing complexity, security, trust, and authentication, among others. This gets increasingly more challenging as technology advances, and its use expands. As a consequence, boosting the capacity of these networks has garnered widespread attention. As a result, 5G, the next phase of cellular networks, is expected to be a game-changer, bringing with it faster data transmission rates, more capacity, improved service quality, and reduced latency. However, 5G networks continue to confront difficulties in establishing pervasive and dependable connections amongst high-speed IoT devices. Thus, to address the shortcomings in current recommendations, we present a unified architecture based on software-defined networks (SDNs) that provides 5G-enabled devices that must have complete secrecy. Through SDN, the architecture streamlines network administration while optimizing network communications. A mutual authentication protocol using elliptic curve cryptography is introduced for mutual authentication across certificate authorities and clustered heads in IoT network deployments based on IoT. Again, a dimensionality reduction intrusion detection mechanism is introduced to decrease computational cost and identify possible network breaches. However, to leverage the method’s potential, the initial module's security is reviewed. The second module is evaluated and compared to modern models.