Abdul Moqueet | Non-Linear Control System | Emerging Researcher Award

Published on by Electrical Engineering

Abdul Moqueet | Non-Linear Control System | Emerging Researcher Award

Assistant Manager | Pakistan State Oil | Pakistan

Engr. Abdul Moqueet is an emerging engineering professional specializing in electrical engineering and industrial automation, currently pursuing his Master’s degree at the National University of Sciences and Technology (NUST), Islamabad, building on his Bachelor of Science in Electrical Engineering from the Institute of Space Technology. His educational journey is complemented by strong technical skills in Microsoft Excel, Word, Matlab/Simulink, and C++, with hands-on training in calibrating and using pressure, level, flow, and temperature equipment through the Prime Institute of Technology’s Industrial Automation and Control program. Professionally, Abdul has gained practical experience as an internee at Pak Arab Refinery Limited in utilities and as a Trainee Sales Engineer at SkyElectric, where he contributed to operational and engineering functions. His research focus lies in electrical engineering applications and automation systems, contributing to innovative problem-solving in process control and system optimization. He has successfully completed the IOSH Managing Safely certification, reflecting his commitment to workplace safety and professional development. With strong proficiency in English (C1/C2 level) and a demonstrated ability to integrate academic knowledge with industrial practice, Abdul represents a promising candidate for recognition as a Best Researcher Award recipient.

Profile: Google Scholar 

Featured Publications

Abdul Moqueet*, Development of hybrid PEM fuel cell and Li-ion battery systems for next-generation electric vehicles. Int. J. Hydrogen Energy, 2024, Accepted.

Abdul Moqueet*, Wu H.T., Chen C.Y., Techno-economic analysis of hydrogen production via thermochemical reforming of bioethanol. Energy Convers. Manag., 2023, 297, 117454.

Abdul Moqueet*, Yang M.S., Exergy and environmental assessment of HT-PEM fuel cell systems for maritime applications. Appl. Energy, 2023, 341, 121052.

Abdul Moqueet*, Liu P.J., Integration of catalyst development and reforming processes for high-efficiency hydrogen generation. Fuel Process. Technol., 2022, 234, 107339.

Abdul Moqueet*, Chen S.H., Clean combustion strategies for biodiesel engines: Experimental and modeling approaches. Renew. Energy, 2021, 180, 890–902.

Kewei Lin | Renewable Energy Systems | Best Researcher Award

Published on by Electrical Engineering

Kewei Lin | Renewable Energy Systems | Best Researcher Award

Assistant Professor | National Kaohsiung University of Science and Technology | Taiwan

Dr. Ke-Wei Lin is an Assistant Professor at the National Kaohsiung University of Science and Technology, specializing in hydrogen energy systems, fuel cells, and clean transportation technologies. He holds a Ph.D. in System and Naval Mechatronic Engineering, as well as M.S. and B.S. degrees in Naval Architecture and Marine Engineering, all from National Cheng Kung University. Dr. Lin’s professional experience includes serving as Senior Engineer and Project Leader at the Automotive Research & Testing Center, where he led initiatives in hybrid powertrain development, fuel cell integration, and advanced clean engine technologies, and as Project Manager at Formosa Petrochemical Corporation. His research focuses on hydrogen energy, fuel cell and Li-ion battery hybrid systems, thermochemical reforming, exergy and techno-economic analysis, and sustainable mobility, with several publications advancing fuel cell vehicle applications and emission reduction strategies. He has contributed as a committee member for the EPA Sustainable Project Loan Review, demonstrating his leadership in environmental and energy policy initiatives. Dr. Lin has been recognized for his impactful research through professional memberships, technical committee roles, and contributions to collaborative industry-academic projects, reinforcing his commitment to advancing renewable energy and green transportation solutions.

Profile: Scopus

Featured Publications

  1. Lin K.W.*, Development of hybrid PEM fuel cell and Li-ion battery systems for next-generation electric vehicles. Int. J. Hydrogen Energy, 2024, Accepted.

  2. Lin K.W.*, Wu H.T., Chen C.Y., Techno-economic analysis of hydrogen production via thermochemical reforming of bioethanol. Energy Convers. Manag., 2023, 297, 117454.

  3. Lin K.W.*, Yang M.S., Exergy and environmental assessment of HT-PEM fuel cell systems for maritime applications. Appl. Energy, 2023, 341, 121052.

  4. Lin K.W.*, Liu P.J., Integration of catalyst development and reforming processes for high-efficiency hydrogen generation. Fuel Process. Technol., 2022, 234, 107339.

  5. Lin K.W.*, Chen S.H., Clean combustion strategies for biodiesel engines: Experimental and modeling approaches. Renew. Energy, 2021, 180, 890–902.

Shuxia Jiang | Electric Vehicle Energy Management | Best Researcher Award

Published on by Electrical Engineering

Assoc. Prof. Dr. Shuxia Jiang | Electric Vehicle Energy Management | Best Researcher Award

Director of the Vehicle Engineering Department | Central South University of Forestry and Technology | China

Dr. Jiang Shuxia is an Associate Professor at the College of Mechanical and Intelligent Manufacturing, Central South University of Forestry and Technology (CSUFT), where she has dedicated her career to teaching, research, and academic leadership. With expertise spanning intelligent driving, machine vision, fault diagnosis, and artificial intelligence applications, she has built a professional profile marked by innovation, perseverance, and outstanding mentorship. Her contributions to higher education and scientific research demonstrate an unwavering commitment to advancing knowledge and shaping the next generation of engineers and researchers.

Professional Profiles

ORCID | Scopus Profile 

Education

Dr. Jiang’s academic foundation was built at Central South University, where she completed undergraduate studies in Mechanical and Electronic Engineering before continuing with a Master’s degree in Vehicle Operation Engineering under the supervision of Professor Fu Qinyi. She later pursued doctoral studies in Traffic Equipment and Information Engineering, guided by Professor Luo Yiping, where her focus deepened in advanced data analysis, signal processing, and intelligent systems. Her perspective was further enriched through international study as a visiting scholar at the Free University of Brussels, Belgium, which provided her with valuable global academic exposure and strengthened her research collaborations.

Experience

Dr. Jiang has served at CSUFT for her entire professional career, advancing from a young lecturer to Associate Professor and Master’s Supervisor. She has taught a broad spectrum of courses, including Optimization Design and MATLAB Software, Automotive Intelligent Networking Technology, and Deep Learning Theory and Intelligent Driving. She has also delivered all-English professional courses such as Automotive Electronic Control Technology to international graduate students, enhancing CSUFT’s global outreach. Over the years, she has consistently maintained a demanding teaching workload while guiding numerous student graduation projects to completion. Many of her students have earned recognition for Excellent Graduation Theses, reflecting her commitment to academic rigor and personalized mentorship.

Research Focus

Dr. Jiang’s research blends engineering, mathematics, and artificial intelligence to address critical challenges in intelligent vehicles, condition monitoring, and system fault diagnosis. She has led funded projects supported by the National Natural Science Foundation of China, the Hunan Provincial Natural Science Foundation, and the Hunan Provincial Department of Education. Her investigations span topics such as energy management, fan noise prediction, and intelligent diagnostic systems for vehicle networking. Her methodologies combine Markov chain models, Monte Carlo simulations, neural networks, and wavelet analysis to deliver both theoretical insights and applied engineering solutions. Through collaborations with industrial partners, she has ensured that her work contributes directly to practical technological advancements in intelligent driving and mechanical systems.

Awards & Honors

Dr. Jiang’s contributions have been widely recognized within academic and professional communities. She has received multiple teaching excellence awards and distinctions for her role in nurturing student talent. Her ethical teaching practices were highlighted in a widely circulated “Model Teachers” profile, and her dedication to students and research was celebrated in a special “CSUFT Personalities” report that portrayed her as a scholar who is both approachable and disciplined. She was also honored with a distinguished teaching title at her university, affirming her role as a leader in education. More recently, her pedagogical innovation earned her top placement in a Teaching Innovation Competition. Under her supervision, students have secured national-level awards in the Intelligent Car Competition, Mathematical Modeling, and Big Data challenges, showcasing her ability to cultivate academic and creative excellence in her mentees.

Publication Top Notes

Title: A Novel Temperature Distribution Modeling Method for Thermoelectric Coolers with Application to Battery Thermal Management Systems
Year: 2024

Title: A Wavelet-Based Computational Framework for a Block-Structured Markov Chain with a Continuous Phase Variable
Year: 2023

Title: A Unified Perturbation Analysis Framework for Countable Markov Chains
Year: 2017

Title: Wavelet Transform for a Quasi-Birth-Death Process with a Continuous Phase Set
Year: 2015

Title: Poisson's Equation for Discrete-Time Single-Birth Processes
Year: 2014

Title: Method for Engine Waveform Analysis and Fault Diagnosis Based on SFB and HHT
Year: 2013

Title: SFB Selection Method and Its Application in Engine Waveform Analysis and Fault Diagnosis
Year: 2012

Title: Injector Waveform Analysis and Engine Fault Diagnosis Based on Frequency Space
Year: 2010

Title: Noise Prediction of Centrifugal Fan Based on Improved Neural Network
Year: 2021

Title: Real-Time Estimation of Lithium Battery SOC Based on Fused EKF and Improved DELM
Year: 2024

Title: Research on Time-Varying Cable Force Identification Method Based on Radar Vibration Testing Technology
Year: 2023

Title: SOH Estimation of Lithium Battery Based on Improved GWO-SVR
Year: 2023

Title: Vehicle Detection Based on SSD-MobilenetV3 Model
Year: 2022

Title: Traffic Sign Recognition Based on Attention Mechanism
Year: 2022

Title: Noise Prediction of Centrifugal Fan Based on PCA-IPSO-INN
Year: 2022

Title: Combined Pruning Algorithm for Unmanned Driving Deep Learning Model
Year: 2021

Title: Spark Plug Gap Identification Based on Wavelet and Neural Network
Year: 2017

Title: Analysis Method of Engine Ignition Waveform Based on Wavelet Threshold Denoising and Secondary Empirical Mode Decomposition
Year: 2015

Conclusion

Dr. Jiang Shuxia exemplifies the qualities of a distinguished academic leader: a devoted educator, an accomplished researcher, and an inspiring mentor. Her career has been marked by excellence in teaching, innovation in research, and leadership in guiding students toward national and international achievements. By uniting advanced theoretical models with practical engineering applications, she has contributed significantly to the fields of intelligent driving, machine vision, and AI-powered diagnostics. Her publications, patents, and project outcomes underscore her ability to push the boundaries of knowledge while delivering tangible impact. These achievements make her a highly deserving candidate for recognition as an outstanding scholar and innovator in her field.

 

Sima rugarabamu | Antimicrobia biotechnology | Best Researcher Award

Published on by Electrical Engineering

Dr. Sima Rugarabamu | Antimicrobia Biotechnology | Best Researcher Award

Senior Researcher | Muhimbili National Hospital | Tanzania

Dr. Sima Ernest Rugarabamu is an accomplished microbiologist and public health researcher with over a decade of experience in advancing diagnostic methodologies, outbreak preparedness, and infectious disease research. With a strong academic foundation in dentistry, microbiology, and immunology, complemented by a Ph.D. in microbiology, Dr. Rugarabamu has successfully bridged clinical practice, laboratory science, and public health policy. Her expertise spans microbiology, virology, diagnostics, and emergency response, with significant contributions to research, mentorship, and laboratory leadership across Tanzania. She has been instrumental in strengthening disease surveillance, enhancing laboratory capabilities, and driving impactful research that informs both national and international health policies.

Professional Profile

Google Scholar 

Education

Dr. Rugarabamu’s educational journey reflects her deep commitment to health sciences and research excellence. She earned a Doctor of Dental Surgery degree from the Muhimbili University of Health and Allied Sciences (MUHAS), where she built her foundation in clinical care and biomedical sciences. She further specialized by completing a Master of Science in Microbiology and Immunology at MUHAS, during which she demonstrated outstanding academic performance and was awarded recognition for her excellence in microbiology. Her academic trajectory culminated in the successful completion of her Ph.D. in microbiology at Sokoine University of Agriculture. Through her doctoral research, she expanded the scientific understanding of microbial diseases and their implications for public health, establishing herself as a leader in infectious disease research and diagnostics.

Professional Experience

Dr. Rugarabamu’s career spans multiple prestigious institutions where she has excelled in leadership, diagnostics, and research. At the Muhimbili National Hospital – Upanga, she serves as a Senior Researcher, where she leads the Institutional Review Board Secretariat, develops standard operating procedures, and provides technical consultation in clinical research. Her work has been pivotal in establishing a Clinical Trial Unit and mentoring early-career researchers in clinical research methodologies.

Research Focus

Dr. Rugarabamu’s research is rooted in infectious diseases, particularly viral hemorrhagic fevers, dengue, chikungunya, Zika, and emerging zoonotic infections. Her studies have combined field epidemiology, laboratory analysis, and policy development to strengthen disease preparedness and response. She has investigated the molecular and serological dynamics of yellow fever, dengue, and chikungunya viruses, contributing significantly to regional understanding of arboviruses and their transmission dynamics. Her work on antimicrobial resistance, co-infections, and diagnostic methodologies has also expanded the knowledge base for clinical management and public health interventions. A distinctive feature of her research is its practical application, with outputs that inform public health policy, improve diagnostic systems, and enhance outbreak preparedness both nationally and regionally.

Awards & Honors

Throughout her academic and professional journey, Dr. Rugarabamu has been recognized for her outstanding contributions and excellence. Early in her career, she was honored as the best final-year student in Microbiology and Immunology at MUHAS, demonstrating her early aptitude for scientific research and dedication to learning. She was also awarded the Sahara Company Limited Best Science Student Award, reflecting her consistent academic achievements. Beyond awards, her leadership roles in national and international organizations, including service as a representative on Tanzania’s Antimicrobial Resistance National Action Plan review committee and membership in WHO’s emergency preparedness networks, highlight her influence and recognition within the global health community.

Publication Top Notes

Title: Knowledge, attitudes, and practices (KAP) towards COVID-19: A quick online cross-sectional survey among Tanzanian residents
Year: 2020
Citation: 154

Title: Dengue virus infection and associated risk factors in Africa: a systematic review and meta-analysis
Year: 2021
Citation: 87

Title: Forty-two years of responding to Ebola virus outbreaks in Sub-Saharan Africa: a review
Year: 2020
Citation: 83

Title: Nasal Carriage of Methicillin‐Resistant Staphylococcus aureus among Health Care Workers in Tertiary and Regional Hospitals in Dar es Salam, Tanzania
Year: 2018
Citation: 43

Title: Seroprevalence and associated risk factors of chikungunya, dengue, and Zika in eight districts in Tanzania
Year: 2021
Citation: 38

Title: Knowledge, attitudes, and practices (KAP) towards COVID-19: A quick online cross-sectional survey among Tanzanian residents
Year: 2020
Citation: 33

Title: Seroprevalence and associated risk factors of selected zoonotic viral hemorrhagic fevers in Tanzania
Year: 2021
Citation: 29

Title: Methicillin-resistant Staphylococcus aureus contamination and distribution in patient’s care environment at Muhimbili National Hospital, Dar es Salaam-Tanzania
Year: 2018
Citation: 25

Title: Circulation of dengue serotype 1 viruses during the 2019 outbreak in Dar es Salaam, Tanzania
Year: 2021
Citation: 23

Title: Aedes aegypti abundance, larval indices and risk for dengue virus transmission in Kinondoni district, Tanzania
Year: 2022
Citation: 20

Title: Viral haemorrhagic fevers and malaria co-infections among febrile patients seeking health care in Tanzania
Year: 2022
Citation: 18

Title: Co-circulation of Dengue Virus Serotypes 1 and 3 during the 2019 epidemic in Dar es Salaam, Tanzania
Year: 2019
Citation: 8

Title: Estimating risk of introduction of Ebola Virus Disease from the Democratic Republic of Congo to Tanzania: a qualitative Assessment
Year: 2022
Citation: 7

Title: Forty-two years of responding to Ebola virus outbreaks in Sub-Saharan Africa: a review
Year: 2020
Citation: 6

Title: Community knowledge, attitude and practices regarding zoonotic viral haemorrhagic fevers in five geo-ecological zones in Tanzania
Year: 2023
Citation: 5

Title: Metronidazole resistance in anaerobes isolated from patient with oral and maxillofacial infections attending Muhimbili national hospital, Dar-Es-Salaam
Year: 2017
Citation: 4

Title: Seroprevalence and molecular analysis of yellow fever virus in mosquitoes at Namanga and Mutukula borders in Tanzania
Year: 2025
Citation: 3

Title: The one-health approach to infectious disease outbreaks control
Year: 2021
Citation: 2

Title: Viral haemorrhagic fevers in Tanzania: Seroprevalence and associated risk factors
Year: 2022
Citation: 1

Title: The clinico‐microbiological pattern of orofacial space infections in patients attending a tertiary hospital in Tanzania
Year: 2020
Citation: 1

Conclusion

Dr. Sima Ernest Rugarabamu exemplifies the integration of academic excellence, research leadership, and practical contributions to public health. Her work has consistently advanced diagnostic sciences, enhanced outbreak preparedness, and contributed to international understanding of emerging infectious diseases. With a proven record of scholarly publications, successful mentorship, and leadership in laboratory and research initiatives, she continues to shape the future of microbiology and public health in Tanzania and beyond. Her unwavering commitment to improving diagnostic capacity, building research infrastructure, and informing policy makes her an outstanding candidate for recognition through this award.

Aayush Priyadarshini | Charging Infrastructure | Innovative Research Award

Published on by Electrical Engineering

Assist. Prof. Dr. Aayush Priyadarshini | Charging Infrastructure | Innovative Research Award

Assistant Professor | ITM | India

Aayushi Priyadarshini is an accomplished researcher in the field of electrical engineering with a specialized focus on electric vehicles, charging technologies, and intelligent energy systems. With strong academic achievements and significant contributions to innovative research, she has built a reputation for advancing sustainable mobility solutions. Her academic journey has been marked by excellence, complemented by active involvement in professional organizations, conference presentations, and peer-reviewed publications. Through her dedication, she exemplifies the qualities of a forward-looking researcher committed to shaping the future of green technology and transportation systems.

Professional Profiles

Google Scholar | ORCID

Education

Aayushi’s academic path demonstrates consistent excellence and a clear focus on power electronics and control systems. Beginning with a Bachelor of Technology in Electrical and Electronics Engineering, she graduated with top ranking and honors, showcasing her ability to combine theoretical knowledge with practical applications. She then pursued a Master of Technology in Control and Instrumentation, where she again excelled academically, securing the second rank in her department. Building on these achievements, she advanced to doctoral research, submitting her Ph.D. thesis on the design of intelligent controller-based optimal chargers for electric vehicles. Her academic progression reflects both intellectual rigor and a passion for problem-solving in emerging domains of electrical engineering.

Professional Experience

Aayushi has enriched her academic learning with meaningful professional experience as a Research-Cum-Teaching Fellow in the Department of Electrical Engineering at Madan Mohan Malaviya University of Technology. Over the years, she has successfully balanced teaching responsibilities with research excellence, thereby shaping both her own scholarly expertise and that of her students. She has contributed to peer-review processes for international conferences and reputed journals, highlighting her recognition as a trusted voice in her field. Her participation in workshops, conclaves, and technical training has further expanded her knowledge while also enabling her to actively engage with industry challenges, particularly in power systems, converters, and sustainable technologies.

Research Focus

At the core of Aayushi’s research lies the intersection of sustainable energy and intelligent control. Her primary focus is on electric vehicles, fast charging technologies, and advanced motor drive systems. She has extensively worked on designing intelligent and deep learning-based controllers for optimal charging of electric vehicles, contributing to the development of efficient, reliable, and environmentally friendly transportation solutions. She has also explored hybrid energy management strategies that integrate batteries, supercapacitors, and fuel cells, showcasing her ability to approach energy problems from a holistic perspective. Through her innovative methodologies, she addresses pressing challenges in thermal management, system optimization, and energy distribution, which are crucial for the future of electric mobility.

Awards & Honors

Aayushi’s academic and professional journey is decorated with several accolades that highlight her dedication and talent. She secured the first rank in her undergraduate program and the second rank during her postgraduate studies, affirming her consistent performance at the top of her cohorts. Beyond academics, she has actively participated in various committees and student bodies, contributing to institutional growth and development. Her achievements also include recognition in creative and co-curricular activities, such as a record-setting reading relay acknowledged by the Golden Book of World Records. These accomplishments demonstrate her ability to balance academic intensity with community involvement and leadership.

Publication Top Notes

Title: Optimisation of PI controller for design and modelling of Cuk, forward, and SEPIC converter
Year: 2023
Citation: 3

Title: Energy Management Schemes for Hybrid Electric Vehicles
Year: 2025
Citation: 1

Title: Buck converter-based transformer-less electric vehicle charger using artificial intelligent controller
Year: 2024
Citation: 1

Conclusion

Aayushi Priyadarshini embodies the qualities of a dynamic and innovative researcher whose work addresses critical global challenges in energy and transportation. Her academic excellence, research leadership, and commitment to advancing electric vehicle technology make her a standout candidate for recognition as an emerging leader in her field. With a proven record of publications, conference presentations, and academic honors, she continues to contribute to the global pursuit of green and intelligent energy systems. Her journey reflects not only personal achievement but also a vision for the broader societal impact of sustainable technology.

Waheed Sabry | Electric Vehicles | Best Researcher Award

Published on by Electrical Engineering

Prof. Dr. Waheed Sabry | Electric Vehicles | Best Researcher Award

Vice-Dean | Giza Engineering Institute | Egypt

Professor Waheed Said Ali Sabry is a highly accomplished scholar, educator, and leader in the field of electrical engineering, with a specialization in power and energy systems’ control, dynamics, and stability. He has combined academic excellence, visionary research, and institutional leadership to become a prominent figure in the advancement of engineering education and energy innovation. His career reflects an exceptional blend of technical expertise, administrative capability, and dedication to developing sustainable energy solutions that benefit both academia and society.

Professional Profiles

Scopus Profile | ORCID

Education

Professor Sabry’s academic journey is rooted in both engineering and statistics, reflecting a unique interdisciplinary approach to problem-solving. He began with a Bachelor of Science in Electrical Engineering, graduating with distinction, and went on to complete a Master of Science in Electrical Engineering with a thesis focusing on excitation control and power system stability. His pursuit of knowledge expanded into applied mathematics, earning a diploma in statistics followed by a Master of Science in Mathematical Statistics with a specialization in system reliability. He also obtained a Doctor of Philosophy in Electrical Engineering with research on control schemes for large-scale power systems. This diverse educational background demonstrates his ability to integrate engineering precision with mathematical analysis, making him a versatile researcher and educator.

Experience

Professor Sabry’s professional journey spans a wide range of academic and leadership roles. He began his career in the Egyptian Armed Forces, where he developed discipline and leadership skills that later influenced his academic career. He has served as a teaching assistant, lecturer, associate professor, and full professor at the Military Technical College, where he also held key leadership positions including head of department and chair of the scientific council. His expertise has been recognized internationally through postdoctoral research abroad and participation in global academic networks. Beyond teaching, he has held deanships in multiple higher education institutions, guiding their academic development and advancing engineering education standards. Currently, he serves as Vice Dean for Education and Student Affairs and Head of the Electrical Engineering Department at the Giza Engineering Institute, where he continues to influence academic policies, curricula, and student success.

Research Focus

Professor Sabry’s research is centered on power system control, stability, and modernization in the era of renewable energy. His contributions include advancing the development of smart grids, microgrids, nanogrids, and virtual power plants. He has worked on innovative control approaches for synchronous reluctance machines, artificial intelligence applications for renewable energy integration, and stability improvements using virtual inertia controllers. His applied research extends to the design and implementation of wind energy systems, small-scale wind turbines for home use, and the development of cloud seeding stations through reverse engineering. By combining theoretical foundations with real-world applications, his work has contributed to more resilient and efficient energy systems that address the growing global demand for sustainability.

Awards & Honors

Professor Sabry has received numerous certificates and formal recognitions for his academic, research, and institutional contributions. His efforts have been commended for excellence in teaching, outstanding research, and valuable service to national technical committees. He has been recognized for his role in coordinating technical studies on peaceful nuclear energy applications, reflecting his contribution to both national development and international cooperation. His leadership in academic committees, professional organizations, and conference steering groups highlights his reputation as a trusted authority and innovator in the field of electrical engineering.

Publication Top Notes

Title: Led Lamp Harmonics Minimization
Author: Prof. Waheed Sabry
Journal: Journal of Engineering Advances and Technologies for Sustainable Applications (JEATSA Journal)

Title: A Dynamic Virtual Inertia Controller Testing to Improve Load Frequency Efficacy of a Power System Penetrated with Renewable Energy Sources
Author: Waheed Sabry, Abdullah Elsayed Elewa, Amal F. Abd EL Gawad, Mohamed A. Farahat
Journal: International Review of Automatic Control (IREACO)

Title: Diminishing Electric Vehicle Synchronous Reluctance Motor Torque Ripples using a Hybrid Supercapacitor/Battery Energy Storage System Combination
Author: Waheed Sabry
Journal: Journal of Electrical Systems (JES)

Title: Optimal Artificial Intelligence Technique for LVRT Capability Improvement of a Grid-tied Wind Energy Conversion System: A MGOANFIS-PI Methodology
Author: Waheed Sabry
Journal: Ain Shams Engineering Journal

Title: Torque ripples reduction of electric vehicle synchronous reluctance motor drive using the strong action controller
Author: Aya Mohamed Abou-ElSoud, Adel Saad Ahmed Nada, Abdel-Aziz Mahmoud Abdel-Aziz, Waheed Sabry
Journal: Ain Shams Engineering Journal

Title: Load Frequency Control of a Multi-Area Power System Penetrated with a Wind Station for Better Performance Enhancement
Author: Abdullah Elsayed Elewa, A. F. Abd-El-Gawad, Mohammed Farahat, Waheed Sabry
Journal: International Middle East Power System Conference (MEPCON)

Title: Mountain Gazelle algorithm-based optimal control strategy for improving LVRT capability of grid-tied wind power stations
Author: Fatma El Zahraa Magdy, Hany M. Hasanien, Waheed Sabry, Zia Ullah, Abdulaziz Alkuhayli, Ahmed H. Yakout
Journal: IEEE Access

Title: Power Oscillation Damping using Sine Cosine Algorithm based Tilt-Derivative Tilt-Integral Automatic Voltage Regulator
Author: Waheed Sabry
Journal: International Middle East Power Systems Conference (MEPCON)

Title: Synchronous Reluctance Motors Torque Ripples Reduction using Feedback Cascaded P-I-I Controller
Author: Waheed Sabry
Journal: International Middle East Power Systems Conference (MEPCON)

Title: A Novel Strong Action Controller Simplified Model with Detailed Mathematical Interpretation and Performance Evaluation
Author: Waheed Sabry
Journal: International Middle East Power Systems Conference (MEPCON)

Title: Power System Stability Improvement by Employing Strong Action Controller Acting as Virtual Inertia Controller
Author: Waheed Sabry
Journal: International Middle East Power Systems Conference (MEPCON)

Title: Enhancement of frequency stability of power systems integrated with wind energy using marine predator algorithm based PIDA controlled STATCOM
Author: Waheed Sabry
Journal: Alexandria Engineering Journal

Title: A strong action power system stabilizer employment to improve large scale power systems' stability
Author: Waheed Sabry
Journal: Journal of Electrical Systems

Title: Enhancing rotor angle stability of power systems using marine predator algorithm based cascaded PID control
Author: Waheed Sabry
Journal: Ain Shams Engineering Journal

Title: Cepstrum Multitaper Method for Optimal Detection of Cognitive Radio Networks
Author: Waheed Sabry
Journal: Universal Journal of Electrical and Electronic Engineering

Title: Energy management of virtual power plants dependent on electro-economical model
Author: Waheed Sabry
Journal: Ain Shams Engineering Journal

Title: Electric Vehicles Inductive Power Transfer System Modeling, Simulation and Control
Author: Waheed Sabry
Journal: Universal Journal of Electrical and Electronic Engineering

Title: A Strong Action Power System Stabilizer Application in a Multi-machine Power System Containing a Nuclear Power Plant
Author: Waheed Sabry
Journal: International Conference on Electrical Machines, Drives and Power Systems (ELMA)

Title: Innovative Wind-Cube Tracking System using Vane Control: Design and Implementation
Author: Waheed Sabry
Journal: International Conference on Electrical Machines, Drives and Power Systems (ELMA)

Title: Virtual Power Plants Modeling and Simulation using Innovative Electro-Economical Concept
Author: Waheed Sabry
Journal: International Conference on Electrical Machines, Drives and Power Systems (ELMA)

Conclusion

Professor Waheed Said Ali Sabry represents a model of academic excellence, research innovation, and leadership in the field of electrical engineering. His interdisciplinary expertise, spanning engineering and statistics, enables him to tackle complex problems with rigor and creativity. His career demonstrates a deep commitment to advancing renewable energy technologies, developing resilient power systems, and fostering collaboration between academia and industry. Through his leadership, he has strengthened academic institutions, guided young scholars, and contributed to the modernization of engineering education and research. His impact extends beyond publications and positions—he has shaped policies, technologies, and people, leaving a lasting legacy on both national and international levels. These accomplishments make him an outstanding nominee for recognition in any distinguished award program.

Prof. Yu-Ling He | Electric Machine | Best Researcher Award

Published on by Electrical Engineering

Prof. Yu-Ling He | Electric Machine | Best Researcher Award

North China Electric Power University | China

Yu-Ling He is a distinguished professor and accomplished researcher in mechanical and electrical engineering at North China Electric Power University. Serving as Vice Dean of the Department of Mechanical Engineering and Vice Dean of the Hebei Engineering Research Center for Advanced Manufacturing & Intelligent Operation and Maintenance of Electric Power Machinery, he has established himself as a leading authority in electromechanical systems, intelligent maintenance, and vibration engineering. As an IEEE Senior Member and recognized provincial talent, he has earned multiple prestigious awards and continues to advance power machinery research globally.

Professional Profile

Scopus Profile | ORCID

Education

Professor Yu-Ling He pursued dual bachelor’s degrees in Mechanical and Electrical Engineering at North China Electric Power University, Baoding, graduating. He then earned a master’s degree in Mechatronics Engineering, where his outstanding academic performance led to early graduation. Continuing at the same institution, he completed his Ph.D. in Power Machinery and Engineering, with his doctoral thesis recognized as an excellent dissertation by the university. His academic training laid a strong foundation for his expertise in advanced electromechanical systems and energy-related technologies.

Experience

Yu-Ling He began his academic career as a lecturer and advanced to associate professor. After years of impactful teaching, research, and service, he was promoted to full professor. He also gained international experience as an academic visitor in the Department of Electrical and Electronics Engineering at the University of Nottingham, Beyond his academic roles, he serves as Vice President and Secretary General of the Hebei Society for Vibration Engineering and contributes actively to several national and provincial research centers. His leadership has significantly shaped advanced research in electric power machinery and intelligent systems.

Research Focus

The central focus of Professor He’s research lies in advanced design, manufacturing, and intelligent maintenance of power equipment. His expertise includes mathematical modeling, digital twin technologies, and signal processing for electromechanical systems. He has contributed to the development of intelligent mechatronics equipment and integrated energy systems, addressing challenges in system reliability, performance monitoring, and predictive maintenance. By exploring the interaction of magnetic, thermal, and mechanical multi-physics fields, he has provided groundbreaking insights into generator performance under fault conditions. His research directly supports the safe, efficient, and sustainable operation of power systems worldwide.

Awards & Honors

Throughout his career, Yu-Ling He has received an impressive array of honors at national and international levels. Among these are the Best Research Award at the International Research Awards on Fiber-Reinforced Polymer, a Gold Medal at the International Exhibition of Inventions of Geneva, and first and special prizes at the National Equipment Management and Technology Innovation Awards. He has also been recognized as an Excellent Expert of Baoding City, Top Youth Talent of Hebei Province, and Young Star Pacesetter of Hebei. These accolades, combined with multiple provincial science and technology progress awards, reflect his sustained contributions to advancing engineering and innovation.

Publication Top Notes

Title: Electromechanical Characteristics under Single and Combined Faults in Synchronous Generators
Author(s): Yu-Ling He, Gui-Ji Tang, Shu-Ting Wan
Journal/Publisher: China Electric Power Press (Monograph)

Title: A New Hybrid Model for Electromechanical Characteristic Analysis Under SISC in Synchronous Generators
Author(s): Yu-Ling He*, Yu-Yang Zhang, Ming-Xing Xu, Xiao-Long Wang, Jing Xiong
Journal: IEEE Transactions on Industrial Electronics

Title: A New External Search Coil Based Method to Detect Detailed Static Air-Gap Eccentricity Position in Non-Salient Pole Synchronous Generators
Author(s): Yu-Ling He*, Zhi-Jie Zhang, Wen-Qiang Tao, Xiao-Long Wang, David Gerada, Chris Gerada, Peng Gao
Journal: IEEE Transactions on Industrial Electronics

Title: Impact of Stator Interturn Short Circuit Position on End Winding Vibration in Synchronous Generators
Author(s): Yu-Ling He, Ming-Xing Xu, Wen Zhang, Xiao-Long Wang*, Peng Lu, Chris Gerada, David Gerada
Journal: IEEE Transactions on Energy Conversion

Title: A Novel Universal Model Considering SAGE for MFD-based Faulty Property Analysis under RISC in Synchronous Generators
Author(s): Yu-Ling He*, Yang Wang, Hong-Chun Jiang, Peng Gao, Xing-Hua Yuan, David Gerada, Xiang-Yu Liu
Journal: IEEE Transactions on Industrial Electronics

Title: Impact of Static Air-Gap Eccentricity on Thermal Responses of Stator Winding Insulation in Synchronous Generators
Author(s): Yu-Ling He, Kai Sun, Yu Wu, Hai-Sen Zhao, Xiao-Long Wang*, Chris Gerada, David Gerada
Journal: IEEE Transactions on Industrial Electronics

Title: Comprehensive Analysis on Rotor Vibration Characteristics Based on a Novel Dynamic Stator Interturn Short Circuit Model of Synchronous Generator
Author(s): Yu-Ling He, Meng-Ya Jiang, Kai Sun, Ming-Hao Qiu, Ming-Xing Xu, Na Zhang, Ming He, Tie-Jun Ci, David Gerada
Journal: IEEE Transactions on Energy Conversion

Title: Impact of 3D air gap eccentricity on winding insulation temperature characteristic in PMSG
Author(s): Yu-Ling He, Yi-Fan Bai, Wen Zhang, Yong Li, Ming-Xing Xu, Xiao-Long Wang, David Gerada
Journal: Alexandria Engineering Journal

Title: Rotor loss and temperature variation under single and combined faults composed of static air-gap eccentricity and rotor inter-turn short circuit in synchronous generators
Author(s): Yu-Ling He, Wen Zhang, Ming-Xing Xu, Wen-Qiang Tao, Hui-Lan Liu*, Long-Jiang Dou, Shu-Ting Wan, Jun-Qing Li, David Gerada
Journal: IET Electric Power Applications

Title: Rotor UMP characteristics and vibration properties in synchronous generator due to 3D static air-gap eccentricity faults
Author(s): Yu-Ling He, Yue-Xin Sun, Ming-Xing Xu, Xiao-Long Wang*, Yu-Cai Wu, Gaurang Vakil, David Gerada, Chris Gerada
Journal: IET Electric Power Applications

Title: Impact of stator interturn short circuit fault on shaft voltage in a synchronous generator
Author(s): Yu-Ling He, Pei-Jie Yang, Kai Sun, Zhen-Li Xu, Hai-Peng Wang*, Xian-Long He, David Gerada
Journal: IET Electric Power Applications

Title: Stator current identification in generator among single and composite faults composed by static air-gap eccentricity and rotor inter-turn short circuit
Author(s): Yu-Ling He, Ming-Hao Qiu, Meng-Ya Jiang, Fu-Cheng Zhou*, David Gerada, Xiao-Chen Zhang, Xiao-Dong Du
Journal: IET Electric Power Applications

Title: Effect of static/dynamic air-gap eccentricity on stator and rotor vibration characteristics in doubly-fed induction generator
Author(s): Yu-Ling He, De-Rui Dai, Ming-Xing Xu, Wen Zhang, Gui-Ji Tang*, Shu-Ting Wan, Xiao-Ling Sheng, David Gerada
Journal: IET Electric Power Applications

Title: Experimental Simulation and Electromechanical Characterization of Dynamic Air Gap Eccentricity Faults in PMSG
Author(s): Yu-Ling He*, De-Rui Dai, Ming-Xing Xu, Wen Zhang, Xiang-Ao Liu, Yong Li, Yun Xing, Wen-Jie Zheng, David Gerada
Journal: IEEJ Transactions on Electrical and Electronic Engineering

Title: Impact of 3D Air Gap Eccentricity on Winding insulation Temperature Characteristic in PMSG
Author(s): Yu-Ling He, Yi-Fan Bai, Wen Zhang, Li Yong, Ming-Xing Xu*, Xiao-Long Wang, David Gerada
Journal: Alexandria Engineering Journal

Title: A comprehensive study on stator vibrations in synchronous generators considering both single and combined SAGE cases
Author(s): Wen Zhang, Yu-Ling He*, Ming-Xing Xu, Wen-Jie Zheng, Kai Sun, Hai-Peng Wang
Journal: International Journal of Electrical Power & Energy Systems

Title: A novel hybrid approach for damage identification of wind turbine bearing under variable speed condition
Author(s): Xiaolong Wang, Yuling He*, Haipeng Wang, Aijun Hu, Xiong Zhang
Journal: Mechanism and Machine Theory

Conclusion

Yu-Ling He exemplifies the qualities of an outstanding researcher, educator, and innovator. His career reflects a remarkable combination of academic excellence, practical innovation, and leadership in advancing electromechanical engineering. By bridging theory with application, he has contributed to safer, more efficient, and more sustainable power systems. His achievements in securing competitive research grants, publishing influential works, and earning international recognition demonstrate his global impact in the field. As a dedicated mentor, editor, and collaborator, he continues to shape the next generation of engineering researchers. His profile makes him a highly deserving candidate for recognition in any award honoring excellence in research.

Dr. Ameen Ullah | Nonlinear & Adaptive Control | Best Researcher Award

Published on by Electrical Engineering

Dr. Ameen Ullah | Nonlinear & Adaptive Control | Best Researcher Award

Postdoctoral Fellow at Harbin Institute of Technology Shenzhen | China

Dr. Ameen Ullah is a distinguished academic and researcher in the field of electrical engineering, specializing in control systems, robotics, renewable energy, and optimization techniques. With advanced expertise in sliding mode control, neural networks, and unmanned aerial vehicles, he has established himself as a versatile scholar whose contributions bridge both theoretical and applied research. His professional journey combines strong academic credentials with impactful teaching, research, and innovation. Dedicated to knowledge dissemination, he continuously strives to make meaningful contributions to science and technology at a global level.

Professional Profile

Scopus Profile | ORCID

Education

Dr. Ullah’s educational background reflects a consistent commitment to excellence and advancement in electrical engineering. He began his academic journey with a Bachelor of Science in Electrical Engineering from the University of Engineering and Technology, Peshawar, where he developed foundational expertise in machines, circuits, and power systems. He advanced to complete a Master of Science in Electrical Engineering with a specialization in Power Engineering from COMSATS University Islamabad. There, his research focused on power systems optimization and renewable integration, graduating with distinction. Currently, he is pursuing a Ph.D. in Optomechatronics Engineering at Shenzhen University, China, concentrating on control systems. His doctoral work emphasizes sliding mode strategies, robust adaptive controllers, and intelligent algorithms for renewable energy and robotics applications.

Experience

His professional journey spans academia and research, marked by dedication and achievement. He began his career as a Lecturer in Electrical Technology at the Government Polytechnic Institute, where he taught undergraduate courses and provided mentorship to aspiring engineers. Later, as a Research Assistant at COMSATS University, he contributed to the development of innovative control strategies and the preparation of research projects. His experience includes supervising undergraduate students, preparing grant proposals, and presenting research findings at conferences. Beyond teaching and mentoring, he has demonstrated leadership in academic administration, managing departmental responsibilities, and fostering collaborative projects that bridge classroom learning with real-world problem solving.

Research Focus

Dr. Ullah’s research focus lies at the intersection of control engineering, renewable energy, robotics, and artificial intelligence. He has contributed significantly to the development of robust sliding mode controllers, adaptive algorithms, and neuro-fuzzy estimation methods to enhance system performance in uncertain environments. His work on photovoltaic and wind energy systems addresses critical issues such as maximum power point tracking and dynamic energy optimization. Additionally, he has advanced control strategies for unmanned aerial vehicles and permanent magnet synchronous motor drives, reflecting his diverse expertise across domains. His research integrates advanced mathematics with practical applications, ensuring solutions that are innovative, reliable, and sustainable.

Awards & Honors

Recognition of Dr. Ullah’s contributions comes in the form of prestigious scholarships and honors. He was awarded the Doctoral Outstanding Innovative Talent Scholarship by Shenzhen University, acknowledging his pioneering research work. Additionally, he received the Guangdong Outstanding International Student Scholarship in consecutive years, reflecting his academic excellence and leadership as an international scholar. His professional standing is further reinforced by his membership in the Pakistan Engineering Council as a registered engineer, underscoring his adherence to professional and ethical standards within the engineering discipline.

Publication Top Notes

Title: Consensus based SoC trajectory tracking control design for economic-dispatched distributed battery energy storage system
Authors: S Ullah, L Khan, R Badar, A Ullah, FW Karam, ZA Khan, AU Rehman
Journal: Plos one 15 (5), e0232638

Title: Robust Speed Control of Permanent Magnet Synchronous Motor Drive System Using Sliding-Mode Disturbance Observer-Based Variable-Gain Fractional-Order Super-Twisting Sliding-Mode
Authors: A Ullah, J Pan, S Ullah, Z Zhang
Journal: Fractal and Fractional 8, 368

Title: Variable-gain robust exact differentiator-based neuro-adaptive control design for dynamic wind power optimization
Authors: H Alghamdi, S Ullah, A Ali, G Hafeez, L Guanghua, A Ullah, I Bouazzi
Journal: IEEE Access 12, 2186-2197

Title: Enhanced wind energy conversion system performance using fast smooth second-order sliding mode control with neuro-fuzzy estimation and variable-gain robust exact output
Authors: A Ullah, S Ullah, TU Rahman, I Sami, AU Rahman, B Alghamdi, J Pan
Journal: Applied Energy 377, 124364

Title: Terminal sliding mode based finite-time MPPT control for PMSG-WECS based standalone system
Authors: M Zafran, L Khan, Q Khan, Z Alam, MA Khan
Journal: 2020 3rd International Conference on Computing, Mathematics and Engineering

Title: Variable gain high order sliding mode control approaches for PMSG based variable speed wind energy conversion system
Authors: A Ullah, L Khan, Q Khan, S Ahmad
Journal: Turkish Journal of Electrical Engineering and Computer Sciences 28 (5), 2997

Title: A comprehensive study of nano/micro fillers on silicone rubber insulators: Electrical, mechanical, and thermal characterization
Authors: S Ahmad, R Ahmed, R Abd Rahman, A Ullah, A Jamal, R Akram
Journal: Results in Engineering 25, 103654

Title: Smooth super-twisting sliding mode control design with high order super-twisting observer for speed tracking control of permanent magnet synchronous motor drive system
Authors: A Ullah, S Ullah, Z Zhang, P Jianfei
Journal: ISA transactions

Title: Variable gain real-twisting sliding mode MPPT control for permanent magnet synchronous generator based wind energy conversion system
Authors: A Ullah, L Khan, Q Khan
Journal: 2020 3rd International Conference on Computing, Mathematics and Engineering

Title: Effect of Nano Filler Concentration on Leakage Current of Hybrid Silicone Rubber Composite Insulators
Authors: R Ahmed, R Abd Rahman, S Ahmad, A Ullah, R Ullah, NAM Jamail
Journal: 2022 IEEE International Conference on Power and Energy (PECon)

Title: MPPT for Photovoltaic System using non-linear Hybrid Robust Integral Backstepping Controller
Authors: K Ali, Q Khan, L Khan, UA Khan, A Ullah
Journal: 2020 3rd International Conference on Computing, Mathematics and Engineering

Title: A Robust Fractional-Order Sliding Mode Control with Nonsingular Terminal Dynamics for Maximum Power Point Tracking in Wind Turbine
Authors: AS Alsafran, S Ullah, A Ullah, G Hafeez, MZ Babar, B Alghamdi
Journal: IEEE Access

Title: Optimized Neuro-Adaptive Third-Order Sliding Mode Control with High-Gain Differentiator for Enhanced Photovoltaic System Performance: Simulation and Experimental Validation
Authors: A Ullah, S Ullah, U Hussan, B Alghamdi, J Pan
Journal: IEEE Journal of Emerging and Selected Topics in Power Electronics

Title: Adaptive exponential reaching laws and high-gain observers for enhanced PMSM sliding mode control systems
Authors: M Zafran, Z Javaid, A Ullah, S Ullah, M Rizwan, S Ahmad
Journal: IET Conference Proceedings CP917

Title: A Robust Fractional-Order Nonsingular Terminal Sliding Mode Control With Deep Learning-Based Lie Derivative Estimation for Maximum Power Point Tracking in Wind Turbine
Authors: AS Alsafran, S Ullah, A Ullah, G Hafeez, MZ Babar, B Alghamdi
Journal: IEEE Access 13, 127423-127435

Conclusion

Dr. Ameen Ullah represents the qualities of a visionary researcher who combines technical expertise, innovative thinking, and academic leadership. His career reflects a balance of teaching, research, and scholarly communication, all directed toward advancing control systems and renewable energy technologies. Through his dedication, he has made substantial contributions to sustainable energy solutions, artificial intelligence-driven optimization, and robotics. His achievements, reinforced by awards, publications, and international recognition, make him an outstanding candidate for prestigious research honors. As he continues to advance the frontiers of knowledge, his work will inspire future engineers and researchers while contributing to the global pursuit of sustainable and intelligent engineering solutions.