zeyad A. H. Qasem | Engineering | Best Researcher Award | 13382

Dr. zeyad A. H. Qasem | Engineering | Best Researcher Award

Dr. zeyad A. H. Qasem, Donghai Laboratory, Zhejiang University, China

Dr. Zeyad Abdulaziz Hazaea Qasem is a dedicated postdoctoral researcher at Donghai Laboratory, Zhejiang University, China, with a strong background in communication and information engineering. Born in Taiz, Yemen, he holds a Ph.D. from Xiamen University and has conducted advanced research at top Chinese institutions like Peking University and Tsinghua University. With extensive academic and industrial experience—including work with Huawei and several universities—Dr. Qasem’s research spans nano-devices, telecommunications, and digital systems. He is a recipient of the Best Overseas Research Award from Xiamen University and is widely recognized for his innovative contributions to engineering and communication technologies.

Profile

Google Scholar

🌱 Early Academic Pursuits

Dr. Zeyad Abdulaziz Hazaea Qasem’s academic journey began in Taiz, Yemen, where he completed his high secondary education at Al Hurria High School in 2005. From a young age, Dr. Qasem exhibited a strong passion for science and technology, particularly in the field of telecommunications and networking. This passion led him to pursue a Bachelor’s degree in Communication Networking from Djillali Liabés University in Sidi Bel Abbès, Algeria, which he completed in 2010.

Not resting on his laurels, he immediately advanced his education by enrolling in a Master’s program at the same university, specializing in Digital Systems of Telecommunications. He completed his Master’s degree in 2012, further honing his skills in the increasingly vital field of communication engineering.

Driven by a desire for research excellence, Dr. Qasem moved to China in 2017, where he embarked on a Ph.D. in Communication and Information Engineering at Xiamen University. His academic perseverance culminated in a doctoral degree in 2021, during which he laid the foundation for impactful scientific research in communication technologies.

🧑‍💼 Professional Endeavors

Dr. Qasem’s career reflects a rare blend of academic knowledge and practical industry experience. Before his postdoctoral research positions, he held multiple key roles in the telecommunications sector, notably with Huawei Company in Yemen from 2014 to 2017, where he worked as a Core Network Engineer for GSM, CDMA, and LTE technologies. His tenure at Huawei equipped him with invaluable practical insights and earned him the Outstanding Technical Engineer Award in 2016.

Dr. Qasem also contributed to academia as a part-time lecturer at several Yemeni universities, including International Emirate University and LIMKOKWING University of Creative Technology. These roles showcased his commitment to mentoring the next generation of engineers even while pursuing a parallel career in industry.

Since 2022, he has served as a Postdoctoral Research Fellow at Peking University and a Visiting Scholar at the Tsinghua-Berkeley Shenzhen Institute—two of China’s most prestigious institutions. In 2023, he joined the Donghai Laboratory at Zhejiang University, where he currently works on cutting-edge research in nano-devices and communication systems.

🔬 Contributions and Research Focus

Dr. Qasem’s research lies at the intersection of nanotechnology, digital communication systems, and network engineering. His contributions include exploring novel solutions for efficient data transmission, next-generation wireless communication, and nano-device integration.

His doctoral and postdoctoral research focuses on enhancing communication infrastructure and developing futuristic nano-scale technologies for more resilient and efficient systems. His work supports the global demand for faster, more secure, and more intelligent communication systems, making a significant contribution to the digital transformation age.

🏆 Accolades and Recognition

Over the years, Dr. Qasem has been widely recognized for his contributions in both academia and industry. Among his most notable achievements are:

  • 🥇 Best Overseas Research Award (2021) from Xiamen University

  • 🏅 Outstanding Technical Engineer from Huawei (2016)

  • 🎓 Multiple professional certifications, including:

    • Cisco Certified Network Associate (CCNA)

    • Computer Maintenance Diploma (EMICOM Institute, Algeria)

    • Huawei “Train the Trainer” Certification

    • Training in FLUKE NETWORKS (USA)

These accolades not only validate his academic and technical excellence but also highlight his global exposure and adaptability.

🌍 Impact and Influence

Dr. Qasem’s work has left a noticeable footprint on both national and international research platforms. His Google Scholar profile showcases a growing list of publications and citations, reflecting the relevance and application of his research across global scientific communities.

His teaching roles have influenced students in Yemen and China, bridging cultural and academic gaps and promoting the advancement of science and technology in developing nations. As a researcher, he is building technological solutions that promise to revolutionize communication infrastructure, particularly in areas with growing data demands.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Qasem is well-positioned to become a leading global voice in communication and nano-device research. His interdisciplinary approach, combining engineering principles with real-world applications, makes him a valuable asset to the international scientific community.

He aims to expand collaborative research, enhance telecommunication infrastructure for underdeveloped regions, and contribute to the green transition of digital technologies. His current role at Donghai Laboratory opens the door to transformative innovations that could define the next decade of smart connectivity.

Dr. Qasem’s legacy is still in the making, but his vision, determination, and accomplishments already make him a suitable candidate for prestigious research honors, including the Best Researcher Award.

Underwater image transmission using spatial modulation unequal error protection for internet of underwater things

Author: H Esmaiel, ZAH Qasem, H Sun, J Wang, NU Rehman Junejo
Journal: Sensors
Year: 2019

Multi-stage feature extraction and classification for ship-radiated noise

Author: H Esmaiel, D Xie, ZAH Qasem, H Sun, J Qi, J Wang
Journal: Sensors
Year: 2021

Xiangxiang Zhu | Engineering | Best Researcher Award

Dr. Xiangxiang Zhu | Engineering | Best Researcher Award

Dr. Xiangxiang Zhu, Northwestern Polytechnical University,China

Dr. Xiangxiang Zhu is a distinguished scholar and researcher at Northwestern Polytechnical University, China. He specializes in advanced materials science, focusing on the development of innovative materials and technologies for aerospace and defense applications. Dr. Zhu has contributed extensively to the fields of material characterization, composite structures, and additive manufacturing, with numerous publications in high-impact journals. His work has significantly advanced the understanding and application of cutting-edge materials in engineering and technology.

Profie

Orcid

📚Educational Qualification

Xiangxiang Zhu began his academic journey with a strong foundation in mathematics, which laid the groundwork for his innovative career. He pursued his Ph.D. in Applied Mathematics from the prestigious Xi’an Jiaotong University, one of China’s leading institutions. His academic rigor and passion for problem-solving were evident during his formative years. Notably, he enriched his doctoral experience as a visiting scholar at the National University of Singapore from 2019 to 2020. This opportunity allowed him to collaborate with esteemed global experts, expanding his perspective and skillset in advanced mathematical applications.

🏛️ Professional Experience 

Currently, Xiangxiang Zhu is an Associate Professor in the School of Mathematics and Statistics at Northwestern Polytechnical University. In this role, he seamlessly integrates mathematical theories with engineering applications, emphasizing innovation and collaboration. His research focuses on advanced signal processing techniques, particularly in non-stationary signal processes, high-resolution time-frequency analysis, nonnegative matrix factorization, and adaptive learning.

Beyond academia, Dr. Zhu has also engaged in consultancy projects such as fault diagnosis and underwater acoustic target recognition. These endeavors underscore his ability to bridge theoretical research with practical industry needs, delivering impactful solutions in real-world scenarios.

🔬 Contributions and Research Focus

Dr. Zhu has made significant strides in the field of time-frequency (TF) analysis. One of his notable contributions is the development of the IF equation-based TF post-processing method. This innovative framework offers several advantages over traditional methods:

  • Concise Signal Representation: The IF equation characterizes complex signals more efficiently, simplifying intricate analyses.
  • Enhanced Feature Extraction: It serves as an effective feature extractor for mixed signals, enabling accurate analysis of harmonic and impulsive components.
  • Versatile Applications: This method has been successfully applied in diverse areas, including seizure detection, gravitational-wave analysis, and bearing fault diagnosis.

Dr. Zhu’s collaborative spirit is exemplified in his joint work with Professor François Auger on high-resolution wavelet transform techniques. Together, they co-authored three impactful articles, advancing the understanding and application of wavelet analysis in signal processing.

🏆 Accolades and Recognition

Dr. Zhu’s contributions to applied mathematics and signal processing have not gone unnoticed. With over 22 peer-reviewed publications in esteemed journals indexed in SCI and Scopus, his work is widely recognized and cited. His research has garnered 392 citations on Scopus, reflecting its influence and relevance in the academic community. Additionally, Dr. Zhu has filed two patents, showcasing his ability to translate innovative ideas into practical, protectable assets.

As a member of the China Society of Industrial and Applied Mathematics, he actively contributes to the advancement of applied mathematical sciences within China and globally.

📖Publication Top Notes 

IF equation: A feature extractor for high-concentration time-frequency representation and application to mixed signals analysis

Contributors: Xiangxiang Zhu; Kunde Yang; Zhuosheng Zhang; Wenting Li
Journal: Measurement
Year: 2024

Parameter analysis of chirplet transform and high-resolution time-frequency representation via chirplets combination

ContributorsXiangxiang Zhu; Bei Li; Kunde Yang; Zhuosheng Zhang; Wenting Li
Journal: Signal Processing
Year: 2023
Contributors: Zhen Li; Jinghuai Gao; Hui Li; Zhuosheng Zhang; Naihao Liu; Xiangxiang Zhu
Author: Signal Processing
Year: 2020
ContributorsXiangxiang Zhu; Zhuosheng Zhang; Jinghuai Gao; Bei Li; Zhen Li; Xin Huang; Guangrui Wen
Journal: Digital Signal Processing
Year: 2019

 

 

 

 

Pingqing Fan | Precision actuating | Best Researcher Award

Prof Dr. Pingqing Fan | Precision actuating | Best Researcher Award

Prof Dr. Pingqing Fan, Shanghai University of Engineering Science, China

“Prof. Dr. Pingqing Fan is a renowned expert in the field of materials science and engineering. Currently serving as a professor at Shanghai University of Engineering Science, China, Dr. Fan has made significant contributions to the development of advanced materials and technologies. His research focuses on the design, synthesis, and characterization of functional materials, with applications in energy storage, conversion, and environmental sustainability.”

Profile

Orcid

Educational Qualification📚

Pingqing Fan’s academic journey is marked by her dedication to excellence and a focus on engineering innovation. She earned her Ph.D. from Shanghai University, where she cultivated her expertise in mechanical and automotive engineering. Her early studies laid a solid foundation in piezoelectric drive theory and bionic robotics, areas that have become central to her career.

Pingqing’s passion for research blossomed during her doctoral studies, where she began to explore the complexities of precision actuating and bionic systems. Her academic foundation has not only driven her own research but also inspired her teaching, making her a respected figure in academia.

Professional Endeavors 💼

Currently a professor and research supervisor at the School of Mechanical and Automotive Engineering at Shanghai University of Engineering Science, Pingqing Fan has dedicated her career to both teaching and groundbreaking research. She is also actively involved in consultancy projects and collaborations with industrial giants like the Western Institute of Computing Technology and CATARC Automotive Test Center.

Her professional roles extend beyond academia to influential positions in professional societies. As a senior member of the China Society of Automotive Engineers and a committee member of its Off-Road Vehicle Technology Branch, she contributes to shaping the future of automotive engineering in China.

Contributions and Research Focus 🔬

Key Research Areas:

  • Piezoelectric Drive Theory: Pingqing has advanced the understanding of high-energy density piezoelectric actuators, paving the way for innovations in precision motion systems.
  • Bionic Robotics: Her research in biomimicry has led to the development of robotics inspired by natural forms, blending engineering precision with biological ingenuity.
  • Precision Actuating Systems: Her work in precision actuators ensures enhanced performance in various industrial applications.

Major Contributions:

Pingqing Fan has spearheaded over 16 consultancy and industry projects, emphasizing the practical application of her research. Her innovative platform for developing electronic water pump controllers for vehicles highlights her commitment to sustainable and efficient automotive solutions.

With 21 published journal articles in esteemed platforms like SCI and Scopus, her work has received widespread recognition, with 465 citations showcasing its impact on the global academic community. Furthermore, she has filed 12 patents, reflecting her ability to translate theoretical knowledge into practical inventions.

Accolades and Recognition 🏆

Pingqing’s achievements have earned her a distinguished reputation in both academia and industry. Her leadership in projects funded by the Shanghai Natural Science Foundation and the Shanghai Automobile Industry Development Fund underscores the value of her contributions.

Her book, identified by ISBN 9787302356035, serves as a vital resource for students and professionals, further cementing her status as a thought leader. As an Academic Bridge Evaluation Expert, she has shaped evaluation criteria that influence academic and industrial practices.

Publication Top Notes 📄

Contributors: Jiateng Shi; Pingqing Fan; Jie Liu
Journal: Ultrasonics
Year: 2025

Research on robot path planning by integrating state-based decision-making A* algorithm and inertial dynamic window approach

ContributorsShun Xing; Pingqing Fan; Xipei Ma; Yansong Wang
Journal: Intelligent Service Robotics
Year: 2024

A novel high energy density single-phase linear piezoelectric motor: design and experiment

Contributors佳腾 石; Pingqing Fan; Yansong Wang; Xipei Ma; Jianpeng Zhou
Journal: Ferroelectrics
Year: 2024
ContributorsWeiPeng Bi; Pingqing Fan; Yansong Wang; Xipei Ma; Jianpeng Zhou
Journal: Review of Scientific Instruments
Year: 2023
Contributors: Yangyang Ge; Xipei Ma; Pingqing Fan; Hu; Tao Yuan; Yansong Wang
Journal: Review of Scientific Instruments
Year: 2023

 

Young Soo Yoon | Engineering | Best Researcher Award

Prof. Young Soo Yoon | Engineering | Best Researcher Award

Technology Transfer at Gachon University, South Korea.

Young Soo Yoon, PhD, is a distinguished researcher and professor at Gachon University’s Department of Environment and Energy Engineering. He earned his PhD from the Korea Advanced Institute of Science and Technology and has held significant roles including Research Fellow at the University of Minnesota and Principal Research Scientist at the Korea Institute of Science and Technology. His academic journey includes tenure as an associate professor at Konkuk University and Yonsei University. Dr. Yoon’s current research focuses on advanced materials for all-solid lithium-based secondary batteries and nuclear materials, particularly in cladding and MSR reactors. He brings expertise in thin film processes, measurement, and the synthesis of nano-tailored ceramic-metal composite powders for battery applications, including innovative ATF cladding processes using room temperature swaging methods.

Professional Profiles:

Education 🎓

He earned his Ph.D. from the Korea Advanced Institute of Science and Technology (KAIST), Korea, specializing in his research focus on all solid Li-based secondary battery materials and systems, nuclear materials such as cladding and MSR reactor.

Professional Experience

He has held significant positions in academia and research, starting as a Research Fellow at the Academic Staff at the University of Minnesota and later as a Principal Research Scientist at the Korea Institute of Science and Technology from 1997 to 2003. Transitioning into academia, he served as an Associate Professor at the Department of Advanced Technology Fusion of Konkuk University from 2004 to 2008, followed by a tenure at the Department of Materials Science and Engineering of Yonsei University from 2008 to 2012. Currently, he holds a professorship at the Department of Environment and Energy Engineering at Gachon University, where he continues to lead research in advanced materials for energy storage and nuclear applications.

Research Interest

His current research interests are focused on two primary areas. Firstly, he specializes in the development of advanced materials and systems for all-solid lithium-based secondary batteries, emphasizing innovations in electrode materials and solid electrolytes. Secondly, he explores nuclear materials, particularly in the areas of cladding materials and Molten Salt Reactor (MSR) technologies. With a wealth of experience in thin-film processes, nanostructured ceramics, and composite powder synthesis tailored for battery applications, his recent endeavors include pioneering advancements in the development of new cladding processes for nuclear reactors using room temperature swaging methods.

Research Skills

He possesses matured experience in various domains, including thin film processes and measurements, essential for precise fabrication and characterization in materials science. His expertise extends to the synthesis of nano-tailored ceramic-metal composite powders, particularly for electrodes and solid electrolytes in lithium-based secondary battery systems. His current focus includes pioneering new processes for Advanced Thin Film (ATF) cladding using innovative room temperature swaging methods, aimed at enhancing the safety and efficiency of nuclear materials. These skills underline his proficiency in advancing technologies crucial for energy storage solutions and nuclear reactor safety.

Publications

  1. Corrigendum to “Fabrication and characteristics of Li2TiO3 pebbles manufactured by using powder injection molding (PIM) process”
    • Authors: Park, Y.A., Park, Y.-H., Ahn, M.-Y., Yoon, Y.S.
    • Journal: Journal of Nuclear Materials, 2024, 598, 155165
  2. Fabrication and characteristics of Li2TiO3 pebbles manufactured by using powder injection molding (PIM) process
    • Authors: Park, Y.A., Park, Y.-H., Ahn, M.-Y., Yoon, Y.S.
    • Journal: Journal of Nuclear Materials, 2024, 597, 155140
  3. Selective etching-induced surface modifications of FeCrAl alloy bipolar plates: Mechanisms for enhanced corrosion resistance and hydrophobicity
    • Authors: Kang, H.E., Kim, S.H., Choi, J.-H., Kim, D.-J., Yoon, Y.S.
    • Journal: Chemical Engineering Journal, 2024, 493, 152409
  4. Corrigendum to “Li4SiO4 slurry conditions and sintering temperature for fabricating Li4SiO4 pebbles as tritium breeder for nuclear-fusion reactors”
    • Authors: Park, Y.A., Yoo, J.W., Park, Y.-H., Yoon, Y.S.
    • Journal: Nuclear Engineering and Technology, 2024, 56(5), 1941
  5. Enhanced Durability and Catalytic Performance of Pt–SnO2/Multi-Walled Carbon Nanotube with Shifted d-Band Center for Proton-Exchange Membrane Fuel Cells
    • Authors: Min, H., Choi, J.-H., Kang, H.E., Kim, D.-J., Yoon, Y.S.
    • Journal: Small Structures, 2024, 5(3), 2300407
    • Citations: 3
  6. Recent progress in utilizing carbon nanotubes and graphene to relieve volume expansion and increase electrical conductivity of Si-based composite anodes for lithium-ion batteries
    • Authors: Kang, H.E., Ko, J., Song, S.G., Yoon, Y.S.
    • Journal: Carbon, 2024, 219, 118800
    • Citations: 2
  7. Characterization of CrAl coating on stainless steel bipolar plates for polymer electrolyte membrane fuel cells
    • Authors: Kang, H.E., Choi, J.-H., Lee, U., Kim, H.-G., Yoon, Y.S.
    • Journal: International Journal of Hydrogen Energy, 2024, 51, 1208–1226
    • Citations: 6
  8. Effect of ball milling energy and carbon content on electrochemical properties of FeF3/acetylene black composites for high-capacity thermal battery
    • Authors: Park, S.-H., Kim, S.H., Cheong, H.-W., Yoon, Y.S.
    • Journal: Ceramics International, 2024 (Article in Press)
  9. Corrigendum: Enhanced electrochemical properties of catalyst by phosphorous addition for direct urea fuel cell
    • Authors: Lee, U., Lee, Y.N., Yoon, Y.S.
    • Journal: Frontiers in Chemistry, 2024, 12, 1400748
  10. Hierarchical PtCuMnP Nanoalloy for Efficient Hydrogen Evolution and Methanol Oxidation
    • Authors: Basumatary, P., Choi, J.-H., Konwar, D., Han, B., Yoon, Y.S.
    • Journal: Small Methods, 2024 (Article in Press)

 

 

Rajanand Patnaik Narasipuram | Engineering | Best Researcher Award

Dr. Rajanand Patnaik Narasipuram |Engineering | Best Researcher Award

Sr. R&D Engineer of Vignan’s Foundation for Science, Technology & Research/Eaton India Innovation Center, India.

Dr. Rajanand Patnaik Narasipuram is an accomplished professional with a rich academic background and extensive experience in electric vehicle development and systems engineering within the automotive E-mobility and industrial sectors. With over a decade of expertise, he excels in areas such as journal writing, EE Architectures, Functional Architectures, Vehicle Integration, and Validation & Verification for e-vehicles and products. Dr. Narasipuram’s educational journey includes earning a Ph.D. in Power Electronics from Vignan’s Foundation for Science Technology and Research, along with master’s and bachelor’s degrees in related fields from prestigious institutions in India. He has a keen interest in research, with a focus on Transportation Electrification, Electric Vehicle Chargers, Power Electronics Converters, Automotive Electronics, and Systems Engineering.

 

Professional Profiles:

Education

Dr. Rajanand’s educational journey encompasses a diverse range of qualifications across various levels. Beginning with a Diploma in Electrical & Electronics Engineering from Govt. Polytechnic College Vijayawada, SBTET-AP, India in April 2011, he laid the foundation for his academic pursuits. Subsequently, he pursued a Bachelor’s degree in Electrical & Electronics Engineering from Dhanekula Institute of Engineering & Technology, JNTUK, AP, India, graduating in May 2014. Building upon this, he attained a Masters in Power Electronics & Electrical Drives from Vignan’s Lara Institute of Technology & Science, JNTUK, AP, India in December 2016. Dr. Rajanand furthered his academic journey by completing a PhD in Power Electronics from Vignan’s Foundation for Science Technology and Research, AP, India in April 2024. Additionally, he acquired his SSC (10th) qualification from Sree Vani Public School, SSC Board, AP, India in April 2008. This comprehensive educational background reflects Dr. Rajanand’s dedication to advancing his knowledge and expertise in the field of electrical engineering and power electronics.

Professional Experience

Dr. Rajanand has accumulated a wealth of professional experience, particularly in the realm of electric vehicle development and systems engineering within the automotive and industrial sectors. With over 10 years of combined academic and professional research experience, he has been actively involved in various aspects of electric vehicle (EV) development, including E-mobility (E-bus, E-Auto, E-2W). His expertise extends to EE Architectures, Functional Architectures, Vehicle Integration, and Validation & Verification, both in terms of software (SW) and hardware (HW) for e-vehicles and products up to 750V @360kW. This extensive experience underscores Dr. Rajanand’s proficiency in electric vehicle technology and his contribution to advancing the field of automotive electrification.

Research Interest

Dr. Rajanand’s research interests encompass a broad spectrum of topics related to transportation electrification and power electronics. Specifically, he is passionate about exploring areas such as electric vehicle chargers, power electronics converters, automotive electronics, and systems engineering principles. Additionally, his research interests extend to power, energy, and their applications across various industries. Through his work, Dr. Rajanand aims to contribute to the advancement of electric vehicle technology and its integration into mainstream transportation systems, thereby promoting sustainable energy solutions and reducing environmental impact.

Award and Honors

Dr. Rajanand has garnered several awards and honors in recognition of his contributions to the field of power electronics and electric vehicle development. These accolades acknowledge his excellence in research, innovation, and academic achievements. They serve as a testament to his dedication and expertise in advancing technology for a sustainable future.

Research Skills

Dr. Rajanand possesses a robust set of research skills pivotal in the field of power electronics and electric vehicle systems. His expertise spans several key areas, starting with electric vehicle development, where he is proficient in system integration and optimization for various types such as E-bus, E-Auto, and E-2W. He excels in power electronics, with significant experience in designing and developing power electronic converters, including DC-DC converters and scalable power converters specifically for electric vehicle charging applications. In systems engineering, Dr. Rajanand is adept at implementing systems engineering principles, covering electrical and electronic architectures, functional architectures, and vehicle integration. His proficiency extends to validation and verification processes for both software and hardware components, ensuring functionality and safety up to 750V @360kW for electric vehicles and related products.

Publications

  1. Title: An industrial design of 400 V – 48 V, 98.2% peak efficient charger using E-mode GaN technology with wide operating ranges for xEV applications
    • Authors: R.P. Narasipuram, S. Mopidevi
    • Journal: International Journal of Numerical Modelling: Electronic Networks, Devices and Fields
    • Volume: 37
    • Issue: 2
    • Article: e3194
    • Year: 2024
    • Citations: 2
  2. Title: Systems Engineering – A Key Approach to Transportation Electrification
    • Authors: R.P. Narasipuram, V.A. Karkhanis, M. Ellinger, G. Alagarsamy, R. Jadhav
    • Journal: SAE Technical Papers
    • Year: 2024
    • Citations: 0
  3. Title: A Novel Hybrid Control Strategy and Dynamic Performance Enhancement of a 3.3 kW GaN–HEMT-Based iL2C Resonant Full-Bridge DC–DC Power Converter Methodology for Electric Vehicle Charging Systems
    • Authors: R.P. Narasipuram, S. Mopidevi
    • Journal: Energies
    • Volume: 16
    • Issue: 15
    • Article: 5811
    • Year: 2023
    • Citations: 9
  4. Title: A Dual Primary Side FB DC-DC Converter with Variable Frequency Phase Shift Control Strategy for On/Off Board EV Charging Applications
    • Authors: R.P. Narasipuram, S. Mopidevi
    • Conference: India International Conference on Power Electronics (IICPE)
    • Year: 2023
    • Citations: 0
  5. Title: Parametric Modelling of Interleaved Resonant DC – DC Converter with Common Secondary Rectifier Circuit for xEV Charging Applications
    • Authors: R.P. Narasipuram, S. Mopidevi
    • Conference: 2023 International Conference on Sustainable Emerging Innovations in Engineering and Technology (ICSEIET)
    • Pages: 842–846
    • Year: 2023
    • Citations: 2
  6. Title: E-mobility: impacts and analysis of future transportation electrification market in economic, renewable energy and infrastructure perspective
    • Authors: S. Mopidevi, R.P. Narasipuram, S.R. Aemalla, H. Rajan
    • Journal: International Journal of Powertrains
    • Volume: 11
    • Issue: 2-3
    • Pages: 264–284
    • Year: 2022
    • Citations: 25
  7. Title: A technological overview & design considerations for developing electric vehicle charging stations
    • Authors: R.P. Narasipuram, S. Mopidevi
    • Journal: Journal of Energy Storage
    • Volume: 43
    • Article: 103225
    • Year: 2021
    • Citations: 87
  8. Title: Performance analysis of nested multilevel inverter topology for 72V electric vehicle applications
    • Authors: N.K. Muthukuri, R.P. Narasipuram, S. Mopidevi
    • Journal: Journal Europeen des Systemes Automatises
    • Volume: 53
    • Issue: 6
    • Pages: 925–930
    • Year: 2020
    • Citations: 0
  9. Title: An overview of energy efficient solid state LED driver topologies
    • Authors: R.T. Yadlapalli, R.P. Narasipuram, A. Kotapati
    • Journal: International Journal of Energy Research
    • Volume: 44
    • Issue: 2
    • Pages: 612–630
    • Year: 2020
    • Citations: 17
  10. Title: Development of fuzzy logic controller for improved interline unified power quality conditioner
    • Authors: R.T. Yadlapalli, R.P. Narasipuram, A. Dodda
    • Journal: International Journal of Innovative Computing and Applications
    • Volume: 10
    • Issue: 2
    • Pages: 86–99
    • Year: 2019
    • Citations: 5