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Secure D2D Transmission Using Lightweight Cryptography for 5G IoT Networks
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Author(s): Vijaya Lakshmi M. (Bharath Institute of Higher Education and Research, India)and V. Ganesan (Bharath Institute of Higher Education and Research, India)
Copyright: 2026
Pages: 20
Source title:
Pioneering AI and Data Technologies for Next-Gen Security, IoT, and Smart Ecosystems
Source Author(s)/Editor(s): Ferdin Joe John Joseph (Thai-Nichi Institute of Technology, Thailand), Karthikeyan Chinnusamy (Veritas, USA), Joseph Jeganathan (University of Bahrain, Bahrain), Ahmed J. Obaid (University of Kufa, Iraq)and S. Suman Rajest (Dhaanish Ahmed College of Engineering, India)
DOI: 10.4018/979-8-3373-4672-4.ch008
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Abstract
Device-to-device (D2D) communication contributes to increased radio frequency reuse and cell coverage expansion in a 5G network by directly connecting devices without an intermediary node. Millions of smart gadgets with limited retention, battery life, and processing power are interconnected in a worldwide computing environment. One major environmental motivator has been the development of 5G. The unique characteristics of the 5G cellular network make it an ideal choice to serve as the backbone network for the Internet of Things in the future. On a 4G network—a common telecom network—standard communication between devices raises various security concerns, though. Furthermore, IoT devices have limited resources, so these security issues become even more important and challenging to solve when 5G networks are applied mMTC and URLLC applications. Safety issues in a 5G IoT environment must be addressed by a thin, safe D2D network able to provide safe verification, data integrity and privacy.
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