Mr. Srinivas Ramavath | Wireless Communication | Best Researcher Award

Posted on 13/07/202413/07/2024 by sciencefather

Mr. Srinivas Ramavath | Wireless Communication | Best Researcher Award

Mr. Srinivas Ramavath, KIIT University, India 🎓

Professional Profile

🌱🎓Early Academic Pursuits

Mr. Srinivas Ramavath, born on July 10, 1989, hails from Erracheruvu Thanda in Nalgonda district, Telangana, India. He embarked on his academic journey with a strong foundation in the sciences, completing his 10+2 in MPC (Maths, Physics, and Chemistry) with an impressive 86.60% at Alpha Junior College, Halia, Nalgonda. His early education culminated in an SSC from S.K.G.P, Peddavoora, where he secured 76.16%.

📚 Professional Endeavors

Mr. Ramavath’s professional journey began after he completed his B.Tech in Electronics and Communication Engineering from JBIET, Moinabad, under JNTU-Hyderabad in 2009 with a notable 66.09%. He then pursued an M.Tech in Wireless Communication from IIT Guwahati, graduating in 2012 with a CPI of 7.43. Currently, he is a Ph.D. candidate specializing in Wireless Communication at KIIT University, Bhubaneswar.

💼 Contributions and Research Focus

As an Assistant Professor (II) in the School of Electronics Engineering at KIIT University, Mr. Ramavath has dedicated himself to advancing the field of communication engineering. His research interests lie in Communication Systems, Digital Signal Processing, and Digital Electronics. Noteworthy among his academic contributions is a paper presentation on “Wireless Technology” at QUBIT08 held at MGIT College.

🏆 Accolades and Recognition

Mr. Ramavath’s dedication to his field and self-learning ability have been instrumental in his academic and professional growth. His proficiency in programming languages like C, LATEX, and MATLAB, along with his knowledge of assembly programming for the 8085 Microprocessor and 8051 Microcontroller, showcases his technical prowess.

🌟 Impact and Influence

Throughout his career, Mr. Ramavath has been committed to personal and professional growth. His self-learning ability and hard-working nature have set a benchmark for his students and colleagues. As an active member of the academic community, he has contributed to the dissemination of knowledge and the advancement of communication engineering.

🌍 Legacy and Future Contributions

Mr. Srinivas Ramavath’s future in academia and research is promising. With his ongoing Ph.D. pursuits and his position at KIIT University, he is poised to make significant contributions to the field of Wireless Communication. His passion for teaching and research will undoubtedly inspire future generations of engineers and researchers, cementing his legacy in the academic world.

📖Publications Top Noted:

Paper Title: Analytical calculations of CCDF for some common PAPR reduction techniques in OFDM systems

Authors: S. Ramavath, R.S. Kshetrimayum
Journal: 2012 International Conference on Communications, Devices and Intelligent Systems
Volume: N/A
Issue: N/A
Pages: 52
Year: 2012

Paper Title: Theoretical analysis of PAPR companding techniques for FBMC systems

Authors: S. Ramavath, U.C. Samal
Journal: Wireless Personal Communications
Volume: 118
Issue: 4
Pages: 2965-2981
Year: 2021

Paper Title: Theoretical analysis of the PAPR for DFT spreading based FBMC

Authors: S. Ramavath, B. Ramavath, R. Akhil
Journal: 2019 4th International Conference on Recent Trends on Electronics
Volume: N/A
Issue: N/A
Pages: 8
Year: 2019

Paper Title: A companding technique for PAPR reduction in DWT OFDM systems

Authors: B. Mohanty, S. Ramavath
Journal: 2014 IEEE International Conference on Advanced Communications, Control and Computing Technologies
Volume: N/A
Issue: N/A
Pages: 6
Year: 2014

Paper Title: Theoretical analysis of power spectral density of CP-based FBMC signals

Authors: S. Ramavath, P.K. Patra, U.C. Samal
Journal: 2023 International Conference on Communication, Circuits, and Systems (IC3S)
Volume: N/A
Issue: N/A
Pages: 5
Year: 2023

Paper Title: PAPR reduction of filter bank techniques for 5G communication systems

Authors: S. Ramavath, A.V. Jha, U. Chandra, B. Appasani, Y. Kabalci, E. Kabalci
Journal: 5G and Beyond Wireless Systems: PHY Layer Perspective
Volume: N/A
Issue: N/A
Pages: 171-189
Year: 2021

Paper Title: Home automation using ESP8266 of IOT module

Authors: S. Swayamsiddha, D. Mukherjee, S. Ramavath
Journal: Emerging Technologies in Data Mining and Information Security: Proceedings
Volume: N/A
Issue: N/A
Pages: 3
Year: 2021

Paper Title: Volume-based spectrum sensing for OFDM based cognitive radio

Authors: S.A. Tahir, S. Ramavath
Journal: 2016 International Conference on Communication and Signal Processing (ICCSP)
Volume: N/A
Issue: N/A
Pages: 2
Year: 2016

Paper Title: Machine Learning and Deep Learning Approaches for Energy Management in Smart Grid 3.0

Authors: A.V. Jha, B. Appasani, D.K. Gupta, S. Ramavath, M.S. Khan
Journal: Smart Grid 3.0: Computational and Communication Technologies
Volume: N/A
Issue: N/A
Pages: 121-151
Year: 2023

Paper Title: A Comparative Analysis of Multicarrier Waveforms for Future Wireless Communications

Authors: S. Ramavath, P.K. Patra, U.C. Samal
Journal: 2023 1st International Conference on Circuits, Power and Intelligent Systems (ICCPIS)
Volume: N/A
Issue: N/A
Pages: 1
Year: 2023

Dr. Piyushkumar Kaman | Electrical Engineering | Best Researcher Award

Posted on 09/07/202409/07/2024 by sciencefather

Dr. Piyushkumar Kaman | Electrical Engineering | Best Researcher Award

doctor Government Engineering College – Bhuj, India 🎓

Professional Profile

🎓 Early Academic Pursuits

Dr. Piyushkumar Lavjibhai Kamani embarked on his academic journey with a Bachelor of Engineering in Electrical Engineering from Saurashtra University, Rajkot, in 1999. He pursued his Master of Engineering in Industrial Electronics from M. S. University, Baroda, graduating in 2002. His academic prowess was further highlighted by his outstanding performance in the Graduate Aptitude Test in Engineering (GATE), where he achieved impressive ranks in both 2001 and 2003, showcasing his commitment to excellence from the outset.

💼 Professional Endeavors

Dr. Kamani’s illustrious career spans over 18 years, marked by significant contributions in academia. He started as a Lecturer at Sankalchand Patel College of Engineering, Visnagar, from July 2003 to February 2005, before moving to Lukhdhirji Engineering College, Morbi, where he served as a Lecturer from March 2005 to May 2006. His journey continued with a role as Assistant Professor at Government Engineering College, Patan, from June 2006 to August 2012, and currently as an Associate Professor at Government Engineering College, Bhuj, since September 2012.

📚 Contributions and Research Focus

Dr. Kamani’s research focus lies in Electrical Engineering, particularly in the realm of multilevel inverters. His contributions include eight papers published in international journals, including prestigious IEEE transactions, and four papers presented at international conferences, including one at IEEE in Florence, Italy. He has authored a book on Multilevel Inverter, underscoring his expertise in the field. His academic pursuits are supported by a research grant from TEQIP-III at SVNIT, Surat, highlighting his dedication to advancing knowledge in his domain.

🏆 Accolades and Recognition

Dr. Kamani’s scholarly achievements are reflected in his publication metrics, with an h-index of 5, an i10-index of 1, and over 115 citations. His research and academic contributions have earned him recognition within the engineering community, validating his impact and influence in the field.

🌍 Impact and Influence

With more than 18 years of teaching experience, Dr. Kamani has mentored numerous postgraduate, undergraduate, and diploma-level students, shaping the next generation of engineers. His innovative teaching methods and commitment to academic excellence have left a lasting impression on his students and colleagues alike. His research on multilevel inverters has practical implications in enhancing power electronics and electrical engineering applications, contributing significantly to the field’s advancement.

🚀 Legacy and Future Contributions

Looking ahead, Dr. Kamani continues to drive innovation and excellence in Electrical Engineering education and research. His legacy includes not only his scholarly contributions but also the inspiration he provides to aspiring engineers and researchers. His future contributions promise to further the boundaries of knowledge in multilevel inverters and related fields, ensuring sustainable and efficient energy solutions for future generations.

📖Publications Top Noted:

Paper Title: Middle-level SHE pulse-amplitude modulation for cascaded multilevel inverters

Authors: PL Kamani, MA Mulla
Journal: IEEE Transactions on Industrial Electronics
Volume: 65
Issue: 3
Pages: 2828-2833
Year: 2018

Paper Title: A new multilevel inverter topology with reduced device count and blocking voltage

Authors: PL Kamani, MA Mulla
Conference: IEEE International Conference on Environment and Electrical Engineering
Pages: 9
Year: 2016

Paper Title: A Home-type (H-type) cascaded multilevel inverter with reduced device count: analysis and implementation

Authors: PL Kamani, MA Mulla
Journal: Electric Power Components and Systems
Volume: 8
Year: 2020

Paper Title: Simplified SHE pulse-amplitude modulation for multilevel inverters

Authors: PL Kamani, MA Mulla
Journal: IET Power Electronics
Volume: 11
Issue: 14
Pages: 2191-2197
Year: 2018

Paper Title: New selective harmonic elimination-pulse-width modulation for cascaded H-bridge multilevel inverters

Authors: PL Kamani, MA Mulla
Journal: International Journal of Emerging Electric Power Systems
Volume: 19
Issue: 5
Year: 2018

Paper Title: Simpson’s rule based SHE pulse-amplitude modulation for cascaded multilevel inverters

Authors: PL Kamani, MA Mulla
Conference: IEEE International Conference on Power Systems (ICPS)
Pages: 585-590
Year: 2017

Paper Title: Online SHE technique for cascaded multilevel inverters with adjustable dc sources

Authors: PL Kamani, MA Mulla
Journal: International Journal of Power and Energy Systems
Volume: 3
Year: 2020

Paper Title: Univariate equation-based SHE-PWM for multilevel inverter

Authors: PL Kamani, MA Mulla
Journal: Sādhanā
Volume: 44
Issue: 5
Pages: 1-5
Year: 2019

Paper Title: Multi-verse optimizer based selective harmonic elimination with optimal dc source for multilevel inverters

Authors: FU Jethva, PL Kamani
Conference: 2023 IEEE 11th Region 10 Humanitarian Technology Conference (R10-HTC)
Pages: 396-401
Year: 2023

Paper Title: A new multilevel inverter with reduced component count and reduced voltage stress

Authors: PL Kamani, MA Mulla
Conference: IEEE Electrical, Electronics and Computer Science (SCEECS), Students
Year: 2016

Vinny Junior Foba Kakeu | Electrical engineering | Best Researcher Award

Posted on 20/05/202421/05/2024 by sciencefather

Vinny Junior Foba Kakeu | Electrical engineering | Best Researcher Award

University Of Douala, Cameroon

Author Profile

Early Academic Pursuits

Vinny Junior Foba Kakeu demonstrated exceptional academic performance from an early age. He completed his Baccalaureate in electrical engineering with honors in 2014/2015, being recognized as the regional major. This academic excellence continued throughout his studies at ENSET Douala and IUT Douala, where he consistently achieved top ranks and honors. Notably, he obtained the DIPET 1 and DIPET 2 in electrical engineering with honors, securing the best end-of-study project and dissertation awards. His relentless pursuit of knowledge culminated in a Master 2 Research degree from the University of Douala in 2021/2022, where he was the valedictorian and best end-of-study dissertation awardee.

Professional Endeavors

Vinny's professional journey began with academic internships at LMP Construction and SETCAM in 2016 and 2017, respectively. These internships provided practical experience in the field of electrical engineering. Since 2021, he has been imparting his knowledge as a part-time teacher at various prestigious institutions, including ENSET University of Douala, IUT University of Douala, ISETAG, IUGET, and the NDI-SAMBA Polytechnic Institute. His teaching repertoire includes a wide range of subjects, from network simulation and energy quality to electromagnetic compatibility and intelligent networks. In addition, since December 2021, he has been assigned to MBANGA Technical High School, contributing significantly to the educational development in the region.

Contributions and Research Focus

His contributions to the field of electrical engineering and artificial intelligence are substantial. His research focuses on optimizing energy efficiency, supervised deep learning applications for engineering problems, and the analysis of smart grids using deep learning tools. He has been a scientific researcher in the field of deep learning and artificial intelligence algorithms, publishing numerous scientific articles and books. His notable research works include projects on the design and production of an autonomous mobile robot controlled by Bluetooth and optimizing the reliability of smart grids using the PSO algorithm.

Accolades and Recognition

Throughout his academic and professional career, His received numerous accolades. He was the top student in his classes multiple times and was honored with the best end-of-study project and dissertation awards during his DIPET 1, DIPET 2, and Master 2 Research studies. His dedication to excellence has been consistently recognized, highlighting his profound impact on his peers and the academic community.

Impact and Influence

His impact extends beyond teaching and research. He has been a reviewer for many scientific journals, contributing to the advancement of knowledge in his field. His scientific publications have been widely recognized and cited, influencing ongoing research in smart grids, deep learning, and energy optimization. His collaborative works with other researchers have resulted in significant advancements, such as fault detection, classification, and location in power distribution smart grids using smart meters data.

Legacy and Future Contributions

His legacy is marked by his contributions to academia, research, and practical applications in electrical engineering and artificial intelligence. His work on smart grids and deep learning has set a foundation for future innovations in these fields. As an author and educator, he continues to inspire and mentor the next generation of engineers and researchers. His future contributions are anticipated to further advance the optimization of energy efficiency and the application of deep learning in engineering, solidifying his role as a pioneer in his field.

Notable Publications

A review of Cameroonian medicinal plants with potentials for the management of the COVID-19 pandemic

Optimal reliability of a smart grid

Fault detection, classification and location in power distribution smart grid using smart meters data

Fault diagnosis of an induction motor based on fuzzy logic, artificial neural network and hybrid system

Sliding mode control of a three-phase parallel active filter based on a two-level voltage converter

A hybrid model for forecasting the consumption of electrical energy in a smart grid

Implementation of quadratic dynamic matrix control on arduino due ARM cortex-M3 microcontroller board

Optimal reconfiguration of power distribution systems based on symbiotic organism search algorithm

Forecasting of electrical energy consumption of households in a smart grid

A novel smart method for state estimation in a smart grid using smart meter data

K Deepa | Electrical engineering/EV Domain with Power electronics | Best Researcher Award

Posted on 20/04/202420/04/2024 by sciencefather

K Deepa | Electrical engineering/EV Domain with Power electronics | Best Researcher Award

Amrita School of Engineering, India

Author Profile

Early Academic Pursuits:

Dr. Deepa Kaliyaperumal's academic journey began with a strong foundation in Electrical and Electronics Engineering (EEE). She excelled during her undergraduate studies at Alagappa Chettiar College of Engineering and Technology, followed by a Master's degree in Power Electronics and Drives from College of Engineering, Guindy. Her academic prowess continued as she pursued a Ph.D. in Power Electronics, focusing on the design, analysis, and control of DC to DC quasi-resonant converters at JNTU, Anantapur.

Professional Endeavors:

With over 25 years of experience in teaching and research, Her professional journey has been marked by significant contributions to the field of Electrical and Electronics Engineering. Her career spans roles as an Assistant Professor at various institutions before assuming the position of Associate Professor at Amrita School of Engineering, Bangalore. She also serves as the E-Mobility Thrust Area Group Lead at ASE-Blr, showcasing her leadership in cutting-edge technological areas.

Contributions and Research Focus:

Her expertise encompasses a wide array of subjects within Electrical Engineering, including Machine Learning, Artificial Intelligence, Power Electronics applications in Electric Vehicles, Renewable Energy Technologies, Power Systems, Drives, Power Quality, and more. Her research focus extends to areas such as electric vehicle charging techniques, battery management systems, DC microgrids, and smart grids, demonstrating a holistic approach to addressing contemporary energy challenges.

Accolades and Recognition:

Her contributions to the field are reflected in numerous publications in reputable international journals and conferences, many of which are indexed in Scopus. Her work on power converters, control algorithms, and energy systems has earned her recognition and respect in academic and research circles.

Impact and Influence:

Her research and teaching have had a profound impact on the development of advanced technologies in power electronics and energy systems. Her insights into electric vehicle charging, renewable energy integration, and smart grid solutions contribute significantly to the sustainable energy landscape.

Legacy and Future Contributions:

As a seasoned academic and researcher, Her legacy lies in her continuous pursuit of excellence in research, teaching, and innovation. Her future contributions are poised to further advance the fields of power electronics, e-mobility, renewable energy, and AI-driven solutions for energy systems, leaving a lasting impact on the industry and academia alike.

Citations

A total of 870 citations for Her publications, demonstrating the impact and recognition of Her research within the academic community.