Work place: Department of Electronics and Communication Engineering, IMPS College of Engineering and Technology, W.B., India
E-mail: sudipta.das1985@gmail.com
Website:
Research Interests:
Biography
Dr. Sudipta Das is currently working as a Professor in the Department of Electronics and Communication Engineering at IMPS College of Engineering. & Technology, West Bengal, India. He has 15 years of teaching and 13 years of research experience. His research interests are Microstrip Antennas for microwave, mm-wave, and THz communication systems, Flexible antenna design, Filter design, FSS, Polarizer, Absorber, RFID, microwave components, THz systems, metamaterials, graphene-based photonic structures, micro and nano-scaled antenna design and development for next generation communication systems. He has contributed 275 research articles in various peer-reviewed international journals, conferences of repute, and edited books. He has authored one book on ‘Microstrip Filter Design’, and Edited 6 books working with Springer entitled “Advances in Terahertz Technology and its Applications”, “Terahertz Wireless Communication Components and System Technologies”, Terahertz Devices, Circuits, and Systems, “Recent Advances in Graphene Nanophitonics”, “Next Generation Wireless Communication” and Millimeter Wave and Terahertz Devices for 5G and 6G Systems”, and also contributed several book chapters. He is associated with different international journals as an Editorial Board member and reviewer. His Biography is listed in Marquis Who’s Who in the World 2016. He has been conferred with the “Outstanding teacher in Electronics & Communication Engineering” award by the Global Outreach Research and Education Summit Awards in the year 2019.
By Abdelmounim HMAMOU Mohammed EL GHZAOUI Jaouad FOSHI Serghini Elaage Said Elkhaldi Sudipta Das
DOI: https://doi.org/10.5815/ijcnis.2025.05.05, Pub. Date: 8 Oct. 2025
This paper presents a comprehensive study on the modeling of power line communication (PLC) channels in a MIMO (Multiple Input Multiple Output) environment. PLC systems utilize existing electrical infrastructure to transmit data, but the complexity of these channels, characterized by multipath propagation and inter-symbol interference (ISI), poses significant challenges for designing robust and efficient systems. In this study, we rigorously compare two approaches to PLC channel modelling, which are as follows: the empirical approach and the deterministic approach. The empirical approach relies on the analysis of experimental data to derive statistical models of the channel, offering a realistic representation based on concrete observations. In contrast, the deterministic approach employs theoretical principles and electromagnetic equations to model the channel behavior, providing a detailed description of propagation phenomena. The obtained results demonstrate the significant impact of multipath propagation on the performance of PLC communication systems, highlighting the limitations of empirical models in various scenarios and the increased accuracy of deterministic models. This comparative study conducted in this work highlights the advantages and limitations of each approach and proposes solutions to optimize the performance of power line communication networks.
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