Mr. Konda Naresh | Electrical Drives | Best Researcher Award

Research Scholar at NIT Raipur, India

Konda Naresh is a dedicated researcher and academician in the field of Electrical Engineering, with a strong foundation in power electronics, motor drives, and sensorless Brushless DC (BLDC) motor control. With over a decade of combined experience in teaching and research, Naresh has demonstrated deep technical expertise and innovation in designing high-efficiency power conversion systems and implementing advanced control algorithms for electric vehicle (EV) applications. Currently pursuing his Ph.D. at the National Institute of Technology (NIT) Raipur, he is known for his rigorous approach to real-time simulation and hardware validation of motor control systems. His work is grounded in practical impact, aiming to enhance the performance and sustainability of modern electric drive systems.

Profile

Orcid

Education

Naresh began his academic journey with a Bachelor of Technology in Electrical and Electronics Engineering from JNTU-Hyderabad in 2010. He further specialized in power electronics through his Master of Technology degree from the same university, completed in 2014. His academic pursuits culminated in his current doctoral studies at NIT Raipur, which he commenced in 2022. His Ph.D. research is focused on the development and optimization of high-gain DC-DC converters and sensorless BLDC motor drives, targeting efficient and reliable operation in real-time embedded applications, particularly in the EV domain.

Experience

Naresh has held significant teaching roles, beginning his academic career as an Assistant Professor at Vignan Institute of Technology and Science from 2015 to 2018. There, he was actively involved in lecturing and mentoring students on power electronics and control systems. He then served at Netaji Institute of Technology until 2022, continuing to enrich the academic environment with his knowledge and guiding numerous undergraduate projects. Throughout his teaching career, Naresh combined theoretical instruction with hands-on implementation, preparing students for industry and research roles. Parallel to his academic engagements, he steadily expanded his research credentials, focusing on emerging challenges in motor control and energy-efficient power systems.

Research Interest

Naresh’s primary research interests lie in the design and implementation of high-gain power converters and sensorless control techniques for BLDC motors. He is particularly driven by challenges related to maximizing efficiency, reducing switching losses, and achieving precise rotor position estimation without physical sensors. His work bridges the gap between simulation and real-world application through the use of platforms like MATLAB/Simulink, dSPACE, and OPAL-RT. His contributions in hysteresis-based control strategies and hybrid converter topologies have yielded novel solutions to longstanding problems in the field of electric drives and sustainable energy systems.

Awards

While formal awards are pending at this stage, Naresh’s innovative contributions in developing novel converter topologies and motor control algorithms have earned him recognition among academic peers and within the IEEE community. His projects have demonstrated practical feasibility and performance improvements, attracting interest from researchers working on electric mobility and renewable energy systems. As an active member of IEEE and its Power Electronics and Industrial Electronics Societies, Naresh continues to stay engaged with global research trends and technical advancements.

Publications

Naresh has authored two peer-reviewed SCI journal articles, two Scopus-indexed conference papers, and two book chapters, reflecting a balanced mix of theoretical and applied research contributions.

“Design and Implementation of a Quasi-Z-Source High-Gain DC-DC Converter for Sensorless BLDC Drive Applications” – Published in IEEE Transactions on Industrial Electronics, 2023 – Cited by 14 articles.

“Hysteresis-Based Switching Table for Improved Sensorless Control of BLDC Motors” – Published in IET Power Electronics, 2022 – Cited by 10 articles.

“Real-Time Validation of High Voltage Gain Converters Using OPAL-RT” – Scopus Conference: ICPEICES, 2023.

“Simulation and Hardware Co-Design for BLDC Drives Using MATLAB and DSP Controllers” – Scopus Conference: PEDES, 2022.

Book Chapter: “Advanced Control Algorithms for Electric Vehicle Drives” – Springer, 2023.

Book Chapter: “Power Conversion Techniques in Renewable Energy Systems” – Elsevier, 2022.

Conclusion

Konda Naresh exemplifies the qualities of a forward-thinking engineer and researcher committed to solving contemporary challenges in electrical drive systems. His academic rigor, coupled with real-time hardware implementation expertise, positions him as a rising contributor in the domain of power electronics and sensorless motor control. Through a blend of simulation-driven design, embedded control strategies, and converter optimization, Naresh’s work significantly contributes to enhancing energy efficiency and performance reliability in electric mobility and power systems. As he continues his doctoral research, his growing body of publications and project outcomes underscore his potential to emerge as a leading innovator in sustainable electrical engineering technologies.