This is an unedited manuscript accepted for publication and provided as an Article in Press for early access at the author’s request. The article will undergo copyediting, typesetting, and galley proof review before final publication. Please be aware that errors may be identified during production that could affect the content. All legal disclaimers of the journal apply.
Dr. Manjula Mallya M.,
Dr V. Basil Hans,
- Associate Professor, Department of Economics, Government First Grade College for Women in Mangalore, Karnataka, India
- Research Professor, Department of Commerce and Management and Humanities & Social Sciences, Srinivas University, Mangalore, Karnataka, India
Abstract
Electronic communication networks underpin modern society, offering seamless interaction across geographical, social, and economic borders. These systems are transforming into faster, more reliable, and smarter ones as digital technologies improve. This article discusses the future of Electronic Communication Systems in the context of 5G Technology, IoT, AI, and Quantum Communication. These technologies should revolutionise data transfer by increasing capacity, lowering latency, and enabling real-time communication across platforms. Due to need for safe and efficient communication solutions, encryption and network topologies have improved. Spectrum shortages, cybersecurity risks, and infrastructure constraints illustrate the necessity for new solutions and worldwide cooperation. The study emphasises how cloud-based architectures and edge computing may be used to offer intelligent and scalable communication systems. Additionally, it highlights how machine learning is used in traffic management, predictive maintenance, and network optimisation. The significance of green communication technology is also discussed, with an emphasis on sustainable network architecture and energy efficiency. Together, these developments show how cutting-edge technologies are solving important technological and environmental issues while influencing next-generation communication frameworks. Finally, electronic communication systems must adapt to the changing digital landscape to provide better, faster, and more secure connectivity. These changes will transform sectors and how people and organisations interact in a globalised environment.
Keywords: Electronic Communication Systems, 5G technology, Internet of Things, Quantum Communication, Cybersecurity, Digital Signal Processing
Dr. Manjula Mallya M., Dr V. Basil Hans. The Future of Electronic Communication Systems in the Digital Age. Recent Trends in Electronics Communication Systems. 2026; 13(01):-.
Dr. Manjula Mallya M., Dr V. Basil Hans. The Future of Electronic Communication Systems in the Digital Age. Recent Trends in Electronics Communication Systems. 2026; 13(01):-. Available from: https://journals.stmjournals.com/rtecs/article=2026/view=242678
References
[1] Onyejelem T. From evolution to revolution: Exploring the technological advances in mass communication. International Journal of African and Asian Studies. 2018 Jan 1.
[2] Goudar SI, Hassan S, Habbal A. 5G: The next wave of digital society challenges and current trends. Journal of Telecommunication, Electronic and Computer Engineering (JTEC). 2017 Mar 1;9(1-2):63-6.
[3] Chowdhury MZ, Shahjalal M, Ahmed S, Jang YM. 6G wireless communication systems: Applications, requirements, technologies, challenges, and research directions. IEEE Open Journal of the Communications Society. 2020 Jul 20;1:957-75.
[4] Hasan SR, Chowdhury MZ, Sayem M, Jang YM. Quantum communication systems: vision, protocols, applications, and challenges. IEEE Access. 2023 Feb 13;11:15855-77.
[5] Marsh I, Paladi N, Abrahamsson H, Gustafsson J, Sjöberg J, Johnsson A, Sköldström P, Dowling J, Monti P, Vruna M, Amiribesheli M. Evolving 5G: ANIARA, an edge-cloud perspective. InProceedings of the 18th ACM International Conference on Computing Frontiers 2021 May 11 (pp. 206-207).
[6] Liu F, Tang G, Li Y, Cai Z, Zhang X, Zhou T. A survey on edge computing systems and tools. Proceedings of the IEEE. 2019 Jun 26;107(8):1537-62.
[7] Oliveira R, Labetoulle J. Intelligent agents: a way to reduce the gap between applications and networks. InProceedings 1995 IEEE International Workshop on Factory Communication Systems. WFCS’95 1995 Oct 4 (pp. 81-90). IEEE.
[8] Laguarda FR. Introduction to Essays on the Future of Digital Communications. Fed. Comm. LJ. 2010;63:1.
[9] Fascell DB, Schlundt VM. United States international communications and information policy: a crisis in the making. Nw. J. Int’l L. & Bus.. 1983;5:486.
[10] Tsoukalas IA, Siozos PD. Privacy and anonymity in the information society–challenges for the European Union. The Scientific World Journal. 2011;11(1):458-62.
[11] Gregory JD. Legislating Trust. Canadian Journal of Law and Technology. 2014;12(1):1.
[12] Chen TC, Liang YS, Ko PS, Ho PT, Huang JC. Wireless Communication Using Embedded Microprocessor‐5G Embedded E‐Commerce System Oriented to Fruit Ordering, Sales, and Logistics. Wireless Communications and Mobile Computing. 2022;2022(1):1544447.
Recent Trends in Electronics Communication Systems
| Volume | 13 |
| 01 | |
| Received | 29/04/2026 |
| Accepted | 01/05/2026 |
| Published | 02/05/2026 |
| Publication Time | 3 Days |
Login
PlumX Metrics