A Review on Integrating Power Electronics and Communication
Keywords:
Power Electronics, Communication Technologies, Integration, Smart Grids, Renewable Energy, Cybersecurity, Artificial Intelligence, 5G, Iot, SustainabilityAbstract
The integration of power electronics and communication technologies has become a cornerstone of modern engineering systems, enabling smarter and more efficient operation across diverse applications. This review examines the symbiotic relationship between power electronics and communication, exploring their roles in various sectors such as renewable energy, transportation, telecommunications, and industrial automation. We discuss the critical functions of power electronics in communication systems, including voltage regulation, power management, and signal conditioning, as well as the pivotal role of communication technologies in enabling real-time monitoring, control, and data exchange in power systems. Challenges such as latency, reliability, and cybersecurity are addressed, along with recent advances such as 5G integration and IoT platforms. Finally, future directions including smart grids and electric vehicles are discussed, emphasizing the collaborative efforts needed to realize the full potential of this integration. This review underscores the importance of interdisciplinary research and innovation in driving forward the convergence of power electronics and communication for a sustainable and interconnected future.
References
Ioinovici A, Chung H. Power electronics and energy conversion systems: fundamentals and hard-switching converters. Hoboken, NJ, USA: Wiley; 2013 Apr 2.
Shahid A. A preliminary communication-assisted hybrid control strategy for maximum reliability and efficiency in smart grids. In2016 IEEE/PES Transmission and Distribution Conference and Exposition (T&D) 2016 May 3 (pp. 1-5). IEEE.
Emmanuel M, Rayudu R. Communication technologies for smart grid applications: A survey. Journal of Network and Computer Applications. 2016 Oct 1;74:133-48.
Alotaibi I, Abido MA, Khalid M, Savkin AV. A comprehensive review of recent advances in smart grids: A sustainable future with renewable energy resources. Energies. 2020 Nov 27;13(23):6269.
Guerrero JM, Chandorkar M, Lee TL, Loh PC. Advanced control architectures for intelligent microgrids—Part I: Decentralized and hierarchical control. IEEE Transactions on Industrial Electronics. 2012 Apr 16;60(4):1254- 62.
Zhao Z, Guo J, Luo X, Lai CS, Yang P, Lai LL, Li P, Guerrero JM, Shahidehpour M. Distributed robust model predictive control-based energy management strategy for islanded multi-microgrids considering uncertainty. IEEE Transactions on Smart Grid. 2022 Jan 28;13(3):2107-20.
Zhang JJ, Wang FY, Wang X, Xiong G, Zhu F, Lv Y, Hou J, Han S, Yuan Y, Lu Q, Lee Y. Cyber-physical-social systems: The state of the art and perspectives. IEEE Transactions on Computational Social Systems. 2018 Sep 12;5(3):829-40.
Wang Y, Liu L, Sharma S, Awwad FA, Khan MI, Ismail EA. Integration of internet of things (IoT) technology in the design model of sustainable green building spaces. Environment, Development and Sustainability. 2024 Jun 3:1-28.
Wang Y, Liu L, Sharma S, Awwad FA, Khan MI, Ismail EA. Integration of internet of things (IoT) technology in the design model of sustainable green building spaces. Environment, Development and Sustainability. 2024 Jun 3:1-28.
Wang Y, Liu L, Sharma S, Awwad FA, Khan MI, Ismail EA. Integration of internet of things (IoT) technology in the design model of sustainable green building spaces. Environment, Development and Sustainability. 2024 Jun 3:1-28.
Shah SA, Ahmed E, Imran M, Zeadally S. 5G for vehicular communications. IEEE Communications Magazine. 2018 Jan 12;56(1):111-7.
Emmanuel M, Rayudu R. Communication technologies for smart grid applications: A survey. Journal of Network and Computer Applications. 2016 Oct 1;74:133-48.
Ge M, Bangui H, Buhnova B. Big data for internet of things: a survey. Future generation computer systems. 2018 Oct 1;87:601-14.
Kushwaha SS, Joshi S, Bairwa AK, Chaurasia S. Blockchain and Smart Grid. InEnabling Methodologies for Renewable and Sustainable Energy 2023 Feb 17 (pp. 119-129). CRC Press.
Satapathy AS, Mohanty S, Mohanty A, Rajamony RK, Soudagar ME, Khan TY, Kalam MA, Ali MM, Bashir MN. Energy Reports.
Guerrero JM, Vasquez JC, Matas J, De Vicuña LG, Castilla M. Hierarchical control of droop-controlled AC and DC microgrids—A general approach toward standardization. IEEE Transactions on industrial electronics. 2010 Aug 12;58(1):158-72.
Rahman MM, Shafiullah M, Rahman SM, Khondaker AN, Amao A, Zahir MH. Soft computing applications in air quality modeling: Past, present, and future. Sustainability. 2020 May 14;12(10):4045.
Chiang LH, Russell EL, Braatz RD. Fault detection and diagnosis in industrial systems. Springer Science & Business Media; 2000 Dec 11.
Abdelmalak M, Venkataramanan V, Macwan R. A survey of cyber-physical power system modeling methods for future energy systems. IEEE Access. 2022 Sep 15;10:99875-96.
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