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Academic Experts
Academic Experts
Prof. Bhartendu Chaturvedi
PROFESSOR
bhartendu.chaturvedi@jiit.ac.in
Biography

Bhartendu Chaturvedi is a distinguished academician in the field of Electronics and Communication Engineering with extensive teaching and research experience. He earned his B. Tech. degree in Electronics and Communication Engineering, followed by an M. Tech. in Electronics Engineering, specializing in Electronic Circuits and System Design from the Department of Electronics Engineering at Aligarh Muslim University, Aligarh, India. His academic journey culminated in a Ph.D. in Electronics Engineering from the same institution.

Currently serving as a Professor in the Department of Electronics and Communication Engineering at Jaypee Institute of Information Technology (JIIT), Noida, he has made significant contributions to the fields of VLSI, VLSI Design Methodologies, Analog CMOS Design, Analog Signal Processing, and Circuit Systems. He is widely recognized for his research work, having authored more than 100 research papers in prestigious international journals and conferences. His scholarly impact is reflected not only in his publications but also in his ability to guide the next generation of researchers. Under his mentorship, four Ph.D. candidates have successfully completed their doctoral studies, and three more are currently pursuing research under his guidance.

He has also contributed to innovation in the field, with two patents to his name, further strengthening his role in Electronics and Communication Engineering. His expertise in VLSI design and analog signal processing continues to influence both academia and industry, with a focus on developing cutting-edge solutions to complex engineering challenges.

Research Highlights

Bhartendu Chaturvedi is a distinguished academician and researcher in the field of Analog and Current-Mode Signal Processing, with extensive expertise in Analog Circuit Design. His research primarily focuses on the development of high-performance current-mode linear and non-linear circuits, which demonstrate significant advantages over conventional voltage-mode approaches. In the domain of linear circuits, his contributions include the design of advanced filters and oscillators, while in the non-linear domain, he has worked extensively on waveform generators, capacitance multipliers, rectifiers, and emerging memristor-based designs. These innovations are supported by rigorous theoretical analysis, validated through simulation platforms such as PSPICE, HSPICE, and VIRTUOSO, and in many cases substantiated by post-layout simulations and experimental verification using standard ICs.

His scholarly contributions are well-documented through more than 100 publications in reputed indexed international journals and conferences, collectively earning wide recognition with over 1250 citations, an h-index of 22, and an i10-index of 46. His impactful research was acknowledged globally when he was featured in Stanford University’s Top 2% Scientists list (2020, 2021).

Areas Of Interest
  • Analog Signal Processing
  • Current-mode Signal Processing
  • VLSI Circuits and Systems
  • Analog Circuits
Patents
  • Patent Title: Fully Active Dead-Zone Circuit with High Precision and Suitable for IC Design 
    Published ID: PAN 202011043853 
    Specification: The invention relates to a fully active dead-zone circuit with high precision, which uses only MOSFETs for its realizations.
  • Patent Title: Smart Integrating & Supporting System for Satellite Communication from Mobile Devices to Public Land Mobile Networks Using IoT 
    Granting ID: 2021104716 
    Specification: The invention is related to a smart integrating & supporting system for satellite communication from mobile devices to public land mobile networks using IoT.

The objective of the present invention is to solve the abnormalities presented in the prior art techniques related to satellite communication from mobile devices to public land mobile networks.