Oleg Morozov | Engineering | Best Researcher Award

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Prof. Oleg Morozov | Engineering | Best Researcher Award

Professor at Kazan National Research Technical University n.a. A.N. Tupolev-KAI, Russia

Prof. Oleg G. Morozov is a distinguished academic and researcher in the field of microwave photonics and fiber optic sensor technology. Born on October 30, 1960, in Kazan, Tatarstan, Russia, he has made significant contributions to both fundamental and applied aspects of electrodynamics and photonics. With a professional career spanning over four decades, Prof. Morozov has held various high-impact academic and administrative positions at Kazan National Research Technical University named after A.N. Tupolev-KAI. He is known for his leadership in advancing research at the intersection of electronics, photonics, and cyber-physical systems. His work has been central to establishing several key academic departments and research labs, and he is currently the Head of the IT-COM Department. In addition to his academic duties, he serves as the Chief Editor of the journal Electronics, Photonics and Cyber-Physical Systems. He is widely respected for both his scientific rigor and leadership in research development.

Professional Profile

Education

Prof. Morozov pursued his early higher education in radiotechnics, graduating as an Engineer in 1983 from the Tupolev Aviation Institute in Kazan. Demonstrating academic excellence and deep technical curiosity, he completed his Ph.D. in 1987, focusing on advanced topics in applied physics and communication systems. Further solidifying his standing in the academic community, he earned the prestigious Doctor of Technology degree in 2004 from Kazan National Research Technical University named after A.N. Tupolev-KAI. His educational journey is characterized by a strong foundation in electronics, microwave engineering, and photonicsβ€”fields that have informed his research career. Throughout his academic progression, Prof. Morozov has stayed closely involved with evolving technological disciplines, often integrating cross-disciplinary approaches in his teaching and research. His educational background has equipped him not only with in-depth technical knowledge but also with a strategic vision for technology’s role in science and innovation, particularly within the Russian higher education landscape.

Professional Experience

Prof. Morozov’s professional experience is marked by a series of leadership roles within Kazan National Research Technical University. From 1989 to 1993, he was the Head of the Quantum Electronics and Laser Technology R&D Lab, where he initiated numerous pioneering projects. Later, between 2005 and 2014, he led the TV and Multimedia Systems Department, focusing on advancements in signal processing and integrated media technologies. From 2014 to 2023, he served as the Head of the Radiophotonics and Microwave Technology Department, strengthening the university’s position in cutting-edge research. In parallel, he also directed the R&D Institute of Applied Electrodynamics, Photonics, and Life Systems from 2012 to 2021, where he supervised multidisciplinary research teams. Currently, he is a Professor and Head of the IT-COM Department. His professional path reflects a consistent commitment to innovation, interdisciplinary research, and fostering academic excellence in emerging technological domains.

Research Interests

Prof. Morozov’s research interests lie primarily in microwave photonics, fiber optic sensors, and radiophotonic interrogation techniques. His work bridges theoretical innovation and applied research, especially in high-frequency signal processing, quantum electronics, and cyber-physical system integration. He has contributed significantly to the development of advanced sensing technologies, optical communication systems, and integrated photonic devices. His research also explores the role of photonics in healthcare and smart systems, showing an ability to adapt traditional fields to modern technological challenges. Prof. Morozov has consistently aimed to merge physical sciences with engineering applications, contributing to both national and international scientific communities. His leadership in these areas has resulted in a number of collaborative projects and publications that have advanced the state of the art in photonics and related technologies. He also emphasizes system-level thinking, where electronics, optics, and digital technologies converge to build intelligent and adaptive sensing solutions for next-generation applications.

Awards and Honors

Throughout his illustrious career, Prof. Morozov has received numerous awards and honors recognizing his research excellence and academic contributions. Most notably, he was awarded the Frish Medal by the Russian Optical Society (ROS), a prestigious accolade for contributions to optical science and technology. He holds the Senior Member status in three leading professional organizationsβ€”IEEE, SPIE, and OSAβ€”which reflects his recognized expertise and longstanding service to the global scientific community. Beyond personal awards, his editorial roles, including Guest and Board Editor positions with IntechOpen and MDPI journals, highlight his influence on the broader research discourse. Currently, he serves as the Chief Editor of the journal Electronics, Photonics and Cyber-Physical Systems, further solidifying his thought leadership in the field. These honors not only affirm his past achievements but also position him as a central figure in shaping future advancements in photonic systems and applied electrodynamics.

Conclusion

Prof. Oleg G. Morozov is highly suitable for the Best Researcher Award due to his long-standing and impactful career in cutting-edge technologies, particularly in photonics and microwave systems. His leadership roles, academic achievements, and recognition by esteemed global societies reinforce his strong candidacy.

Publications Top Notes

  • Title: Superstructured Addressable Fiber Bragg Structures

    • Authors: B. Valeev, R.A. Makarov, T.A. Agliullin, A.Z. Sakhabutdinov, O.G. Morozov

    • Year: 2025

    • Citations: 0

  • Title: OAM Mode Propagation and Supercontinuum Generation in a Nested Photonic Crystal Fiber

    • Authors: S. Punia, A. Saharia, Y. Ismail, G.L. Singh, M. Tiwari

    • Year: 2025

    • Citations: 0

  • Title: A Design of Nested Photonic Crystal Fiber for OAM Mode Propagation (Conference Paper)

    • Authors: S. Punia, A. Saharia, Y. Ismail, G.L. Singh, M. Tiwari

    • Year: Not specified

    • Citations: 0

  • Title: Microscopic Temperature Sensor Based on End-Face Fiber-Optic Fabry–Perot Interferometer

    • Authors: M. Chesnokova, D.I. Nurmuhametov, R.S. Ponomarev, O.G. Morozov, R.A. Makarov

    • Year: 2024

    • Citations: 2

  • Title: Design and Performance Analysis of a Novel Hoop-Cut SPR-PCF Sensor for High Sensitivity and Broad Range Sensing Applications

    • Authors: S. Mittal, A. Saharia, Y. Ismail, M. Tiwari, S. Kumar

    • Year: 2024

    • Citations: 12

  • Title: Ontology of Addressed Fiber Bragg Structures as a New Type of Sensor Elements (Conference Paper)

    • Authors: O.G. Morozov, A.Z. Sakhabutdinov

    • Year: Not specified

    • Citations: 0

  • Title: A Six-Core Microstructured Fiber for Sensing Applications (Conference Paper, repeated thrice)

    • Authors: A. Agarwal, S. Mittal, S. Punia, G.L. Singh, M. Tiwari

    • Year: Not specified

    • Citations: 0

  • Title: Modeling of Multi-Layer Fiber-Optic Fabry–Perot Interferometer as a Sensing Element of Humidity, Pressure and Temperature

    • Authors: A.Z. Sakhabutdinov, T.A. Agliullin, B. Valeev, O.G. Morozov, S.M. Hussein

    • Year: Not specified

    • Citations: 0

 

Oladele Afolalu | Engineering | Best Researcher Award

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Dr. Oladele Afolalu | Engineering | Best Researcher Award

Postdoctoral Fellow at Durban University of Technology, South Africa

Dr. Oladele Felix Afolalu is a distinguished researcher and academic in the field of Electrical and Telecommunications Engineering. Born on August 29, 1976, in Nigeria, he has made significant contributions to the advancement of ICT, telecommunications, and enterprise networking. With a strong passion for innovation, he has worked extensively in academia, research, and industry collaborations to improve modern communication systems. Currently a Postdoctoral Fellow at the Durban University of Technology, South Africa, Dr. Afolalu has played a crucial role in developing cutting-edge solutions in 5G networks, interference coordination, and network optimization. His leadership in academic institutions, numerous publications, and participation in international conferences reflect his dedication to research excellence. As a member of several prestigious engineering societies, including IEEE (USA & South Africa), COREN, and MNSE, he continues to impact the engineering community through mentorship, teaching, and groundbreaking studies in the field of telecommunications and ICT.

Professional Profile

Education

Dr. Afolalu’s academic journey is marked by a strong foundation in electrical and electronic engineering, with degrees from top institutions in Nigeria and South Africa. He earned his Ph.D. in Electrical and Telecommunication Engineering from the University of Cape Town, South Africa, where he specialized in 5G network optimization and inter-cell interference coordination. Prior to that, he completed an M.Sc. in Electronic/Electrical Engineering from Obafemi Awolowo University, Nigeria, where his research focused on communication systems and signal processing. His undergraduate studies culminated in a B.Eng. (Hons.) in Electrical/Electronics Engineering from the Federal University of Technology, Akure. Additionally, he holds a National Diploma in Electrical/Electronics Engineering from Federal Polytechnic, Ado-Ekiti. His diverse academic background has provided him with expertise in ICT systems, telecommunications, and engineering education, equipping him to contribute significantly to cutting-edge research and technology advancements.

Professional Experience

Dr. Afolalu has amassed over two decades of experience in teaching, research, and academic administration. He served as Head of the Department and Principal Lecturer at Federal Polytechnic, Ede, Nigeria, where he played a key role in curriculum development, student mentorship, and research supervision. He also worked as an Adjunct Senior Lecturer and Acting Head of Department at Joseph Ayo Babalola University, where he was instrumental in advancing research initiatives in physics electronics. His postdoctoral research at Durban University of Technology, South Africa, involves cutting-edge projects in enterprise networking and ICT systems. Additionally, he has served as a tutor at the University of Cape Town, helping students enhance their understanding of telecommunication systems. Throughout his career, he has been actively involved in examination committees, research committees, and industrial training programs, contributing significantly to the development of engineering education in Nigeria and beyond.

Research Interests

Dr. Afolalu’s research is centered on wireless communication networks, telecommunications engineering, and ICT innovations. His primary focus is on 5G and beyond technologies, network optimization, and inter-cell interference coordination. His Ph.D. research on Ultra-Dense Networks (UDNs) has contributed to improving network efficiency and power allocation in next-generation communication systems. He has also explored the application of artificial intelligence in network performance enhancement, particularly in resource allocation and signal processing. Additionally, his research extends to renewable energy integration in communication networks, aiming for sustainable and efficient power management in ICT infrastructure. His contributions to machine learning applications in network traffic optimization and security have been recognized in top-tier journals. Through his extensive research, he aims to bridge the gap between theoretical telecommunications advancements and practical industry implementations, ensuring that emerging technologies are efficiently deployed for societal benefit.

Awards and Honors

Dr. Afolalu has been recognized for his outstanding contributions to research, engineering education, and technological innovation. He has received accolades for his work on 5G networks, including best paper awards at international conferences such as the Southern Africa Telecommunication Networks and Applications Conference (SATNAC). His research on carrier aggregation-enabled NOMA techniques for enhanced 5G network performance has gained global recognition. He has also been honored for his mentorship and academic leadership, particularly in the development of engineering curricula and innovative teaching methodologies. His membership in prestigious engineering societies such as IEEE, COREN, and MNSE further highlights his excellence in the field. Additionally, he has participated as a panelist and keynote speaker at workshops and conferences, where his expertise in wireless communication and ICT infrastructure has been widely acknowledged. His commitment to research and education continues to inspire future engineers and researchers globally.

Conclusion

Dr. Oladele Felix Afolalu has a strong research portfolio, significant academic experience, and notable contributions to ICT and 5G telecommunications. His leadership roles, professional memberships, and conference engagements make him a worthy candidate for the Best Researcher Award. Strengthening high-impact publications, industry collaborations, and international research engagements will further solidify his standing in the global research community.

Publications Top Notes

  1. Carrier Aggregation‐Enabled Non‐Orthogonal Multiple Access Approach Towards Enhanced Network Performance in 5G Ultra‐Dense Networks

    • Author(s): O Afolalu, N Ventura

    • Year: 2021

    • Citations: 10

  2. A Survey of Interference Challenges and Mitigation Techniques in 5G Heterogeneous Cellular Networks

    • Author(s): OF Afolalu, JO Petinrin, MA Ayoade

    • Year: 2016

    • Citations: 4

  3. Internet of Things and Software Applications in Patient Safety Adverse Event Detection and Reporting: A Comprehensive Literature Review

    • Author(s): OO Afolalu, SA Afolalu, OF Afolalu, OA Akpor

    • Year: 2024

    • Citations: 2

  4. Inter-Cell Interference Coordination in 5G Ultra-Dense Networks

    • Author(s): OF Afolalu

    • Year: 2021

    • Citations: 2

  5. Internet of Things Applications in Health Systems’ Equipment: Challenges and Trends in the Fourth Industrial Revolution

    • Author(s): OO Afolalu, OA Akpor, SA Afolalu, OF Afolalu

    • Year: 2024

    • Citations: 1

  6. Application of Particle Swarm Optimization Method to Economic Dispatch of Nigerian Power System Considering Valve-Point Loading Effect

    • Author(s): GA Adepoju, MA Tijani, MO Okelola, MA Ayoade, OF Afolalu

    • Year: 2021

    • Citations: 1

  7. Enterprise Networking Optimization: A Review of Challenges, Solutions, and Technological Interventions

    • Author(s): O Afolalu, MS Tsoeu

    • Year: 2025

    • Citations: Not available yet

  8. A Novel Security Solution for Efficient Connectivity in Software-Defined Wide Area Network (SD-WAN)

    • Author(s): O Afolalu, MS Tsoeu

    • Year: 2025

    • Citations: Not available yet

  9. Sickle Cell Disease Epidemiology and Management in Africa: Current Trends and Future Directions in Digital Health Technologies

    • Author(s): AO Olajumoke, O Akpor, AS Afolalu, OF Afolalu, HB Oyewole, AO Oke

    • Year: 2024

    • Citations: Not available yet

  10. Analysis of Spectrum Occupancy of Active FM Band within Federal Polytechnic Ede Northern Campus

  • Author(s): AK Adebayo, JO Agbolade, IA Bamikefa, OF Afolalu, MA Ayoade

  • Year: 2021

  • Citations: Not available

  1. Development of Induction Motor Monitoring System with Protection Against Abnormal Voltage, Current, and Temperature

  • Author(s): MA Ayoade, IA Bamikefa, MA Tijani, OF Afolalu, AK Adebayo

  • Year: 2018

  • Citations: Not available

  1. Effects of Angles of Inclinations on the Performances of Photovoltaic (PV) Arrays

  • Author(s): MA Ayoade, OF Afolalu, IA Bamikefa, MA Tijani, MA Sanusi

  • Year: 2017

  • Citations: Not available

  1. Development of a Wireless Induction Motor Unbalanced Voltage Detection and Control System for Hazardous Environments

  • Author(s): MA Ayoade, OF Afolalu, IA Bamikefa, AK Adebayo, MA Sanusi

  • Year: 2017

  • Citations: Not available

 

Peng Gu | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Peng Gu | Engineering | Best Researcher Award

associate professor at donghua university, China

Dr. Gu Peng is an accomplished researcher specializing in ultra-precision manufacturing and intelligent processing equipment. He is currently an Associate Professor at Donghua University, following his postdoctoral research at Shanghai Jiao Tong University under the mentorship of esteemed scholars. His work focuses on advanced machining technologies, contributing to national and international research projects. With multiple high-impact publications, patents, and awards, Dr. Gu has established himself as a leading expert in precision engineering. His contributions extend beyond academia through industry collaborations, making significant advancements in manufacturing automation. He actively serves as a reviewer for top SCI journals and is recognized as an expert in China’s leading technology committees. His academic excellence, combined with his research leadership and industrial impact, positions him as a key figure in the field of intelligent manufacturing and ultra-precision machining.

Professional Profile

Education

Dr. Gu Peng obtained his Bachelor’s degree in Mechanical Design, Manufacturing, and Automation from Hefei University of Technology in 2016, graduating ranked first in his class. He pursued a Master’s-Doctoral continuous program in Mechanical Engineering at Tongji University, where he demonstrated outstanding research potential and academic excellence. During his doctoral studies, he participated in an international training program at Politecnico di Torino, Italy, expanding his expertise in advanced manufacturing technologies. His dedication to research earned him multiple national scholarships and institutional awards, including the Outstanding Doctoral Student Award at Tongji University. His education laid a solid foundation for his expertise in precision engineering, manufacturing automation, and optical surface processing.

Professional Experience

Dr. Gu Peng began his professional career as a Postdoctoral Researcher at Shanghai Jiao Tong University (2022-2024), where he worked on ultra-precision machining under the guidance of renowned scholars. In 2024, he joined Donghua University as an Associate Professor, leading projects on intelligent manufacturing technologies. He has played a critical role in multiple national research projects, including the National Natural Science Foundation of China (NSFC) Youth Fund and key industrial research initiatives. In addition to his academic roles, he has been an expert consultant for major industrial projects, contributing to the development of advanced machining equipment for aerospace, optics, and semiconductor industries. His professional experience bridges cutting-edge research and practical industrial applications, ensuring his work has both theoretical and real-world impact.

Research Interests

Dr. Gu Peng’s research focuses on ultra-precision machining, intelligent manufacturing, and automation technologies. He specializes in high-precision grinding and polishing techniques for complex optical surfaces, including microstructure arrays and freeform surfaces. His work also explores the integration of intelligent control systems and AI-driven manufacturing processes, improving efficiency and accuracy in high-performance manufacturing industries. As the Principal Investigator of multiple national research projects, he is pioneering new methodologies for ultra-precision machining, particularly in single-point oblique axis grinding and laser-assisted cutting. His research has direct applications in aerospace, semiconductor manufacturing, and high-precision optics, making significant contributions to the field.

Awards and Honors

Dr. Gu Peng has received numerous national and institutional awards for his academic excellence and research contributions. He was a recipient of the Shanghai Super Postdoctoral Fellowship, the National Scholarship for Undergraduate and Doctoral Students, and multiple Outstanding Graduate Awards from Tongji University. He has also been recognized in national technology competitions, securing top prizes in innovation and mathematical modeling contests. In addition to his academic accolades, he serves as a reviewer for leading SCI journals, including the Journal of Manufacturing Technology and Applied Surface Technology. His contributions to ultra-precision machining and automation technology have established him as a highly respected figure in both academic and industrial research communities.

Conclusion

Dr. Gu Peng is highly suitable for the Best Researcher Award, given his strong publication record, leadership in high-level research projects, and national recognition. With continued efforts in international collaborations, student mentorship, and diversification of research, he could further solidify his standing as a leading researcher in the field of ultra-precision manufacturing.

Publications Top Noted

  • Author: Gu, P., Zhu, C., Sun, Y., Wang, D., & Shi, Z.

    • Year: 2025
    • Title: Evaluation and Prediction of Wrapping Deformation in Sheet Part Grinding
    • Journal: Experimental Techniques
    • Citations: 0

  • Author: Sun, C., Gu, P., Wan, H., Lin, J., & Min, J.

    • Year: 2025
    • Title: Enhancements of Physical Microstructure and Chemical Activation on Interfacial Bonding Strength of Carbon Fiber Reinforced Polymer
    • Journal: Composites Part A: Applied Science and Manufacturing
    • Citations: 0

 

Nurul Musfirah Mazlan | Engineering | Best Researcher Award

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Dr. Nurul Musfirah Mazlan | Engineering | Best Researcher Award

Lecturer At School Of Aerospace Engineering, Universiti Sains Malaysia, Malaysia

Dr. Nurul Musfirah Mazlan is a dedicated lecturer and researcher specializing in Aerospace Propulsion and Biofuels. She is currently a DS51 Lecturer at Universiti Sains Malaysia (USM), where she contributes to both teaching and research in the field of aerospace engineering. With a strong academic background and an extensive supervision portfolio of postgraduate and undergraduate students, she has played a vital role in advancing research related to sustainable aviation fuels and propulsion systems. Dr. Nurul Musfirah is also an active member of The American Society of Mechanical Engineers (ASME) and the Board of Engineers Malaysia (BEM), demonstrating her commitment to professional excellence. Her research focuses on alternative fuel technologies, nanoparticles as fuel additives, and propulsion system optimization, contributing significantly to green aviation efforts. Through her dedication to academia and innovation, she continues to make an impact in the aerospace engineering field.

Professional Profile

Education

Dr. Nurul Musfirah Mazlan obtained her Doctor of Philosophy (PhD) from Cranfield University, UK, specializing in Aerospace Propulsion and Biofuels. Her doctoral research focused on sustainable aviation fuels, particularly investigating the combustion performance of biofuels and alternative energy sources in aerospace applications. Prior to her PhD, she completed her undergraduate and master’s degrees in engineering, equipping her with a strong foundation in thermodynamics, propulsion systems, and fuel technologies. Her academic journey has been driven by a passion for developing environmentally friendly solutions for the aerospace industry, with a focus on reducing carbon emissions and improving fuel efficiency. Throughout her education, she has worked on multiple experimental and computational research projects, collaborating with international researchers to advance knowledge in alternative propulsion technologies. Her educational background has provided her with a solid expertise in combustion analysis, computational fluid dynamics (CFD), and aerospace fuel innovations.

Professional Experience

Dr. Nurul Musfirah Mazlan is currently serving as a Lecturer (DS51) at Universiti Sains Malaysia (USM), where she teaches undergraduate and postgraduate courses related to aerospace propulsion, thermodynamics, and fuel technologies. Over the years, she has actively supervised numerous PhD, MSc, and undergraduate students, guiding research in biofuels, propulsion systems, and nanotechnology applications in aerospace. While she does not have direct industry experience before joining USM, her work significantly contributes to practical aerospace applications through collaborations with academic and research institutions. In addition to teaching, she is involved in curriculum development, laboratory research, and mentoring students in experimental and computational studies. Her multidisciplinary approach allows her to bridge the gap between theory and real-world aerospace engineering challenges, making her a valuable academician and researcher in the field of sustainable aviation technology.

Research Interest

Dr. Nurul Musfirah Mazlan’s research focuses on Aerospace Propulsion, Biofuels, and Sustainable Energy Technologies. Her primary areas of interest include the development and performance analysis of biojet fuels, nano-additives for combustion efficiency, and solid rocket propulsion systems. She has conducted extensive research on Hydrotreated Vegetable Oil (HVO) blended with Jet-A fuel, evaluating its engine performance, emission characteristics, and sustainability. Additionally, her work explores computational fluid dynamics (CFD) simulations to study the interaction of alternative fuels with turbine blades and combustion systems. She is also interested in experimental and modeling approaches for improving rocket propulsion efficiency and reducing emissions in aircraft engines. By integrating nanotechnology with fuel research, Dr. Nurul Musfirah aims to develop greener and more efficient propulsion solutions for the aviation and aerospace industry, contributing to global efforts toward sustainable aviation fuel development.

Awards and Honors

Dr. Nurul Musfirah Mazlan has received several recognitions and honors for her contributions to aerospace propulsion and alternative fuel research. While specific awards are not listed in the provided details, her academic and research achievements are evident through her supervision of high-impact projects, international collaborations, and contributions to sustainable aviation research. Her role as a supervisor for multiple PhD and MSc students working on innovative propulsion technologies is a testament to her expertise and dedication to academia. Additionally, her involvement with The American Society of Mechanical Engineers (ASME) and the Board of Engineers Malaysia (BEM) highlights her professional standing and recognition in the engineering community. As she continues to push the boundaries of biofuel and propulsion research, she is well-positioned to receive further recognition for her groundbreaking contributions to the aerospace industry.

Conclusion

Dr. Nurul Musfirah Mazlan is a strong candidate for the Best Researcher Award, given her extensive research contributions in aerospace propulsion and biofuels, graduate supervision, and technical expertise. Her work aligns with sustainable aviation efforts, making her research highly relevant. To further strengthen her case, industry collaborations, securing more grants, and taking leadership roles in global research organizations would enhance her profile.

Publications Top Noted

1. Spray Behaviour of Hydro-Treated Ester Fatty Acids Fuel Made from Used Cooking Oil at Low Injection Pressures

  • Authors: Azam, Q., Sulaiman, S.Z., Abdul Razak, N.A., & Mazlan, N.M.
  • Year: 2024
  • Journal: Aeronautical Journal
  • Citations: 1

2. Influence of Oxyhydrogen Gas Retrofit into Two-Stroke Engine on Emissions and Exhaust Gas Temperature Variations

  • Authors: Kamarudin, R., Ang, Y.Z., Topare, N.S., Baig, R.U., Sultan, S.M., & Mazlan, N.M.
  • Year: 2024
  • Journal: Heliyon
  • Citations: 2

3. Analysis Study of Thermal and Exergy Efficiency in Double-Layers Porous Media Combustion Using Different Sizes of Burner: A Comparison

  • Authors: Ismail, N.C., Abdullah, M.Z., Mazlan, N.M., Rusdi, M.S.B., & Kamarudin, R.
  • Year: 2024
  • Journal: Pertanika Journal of Science and Technology
  • Citations: 0

4. Effect of NCO/OH Ratio and Binder Content with Micro-AP on HTPB/AP/Al-Based Propellants Mechanical Properties

  • Authors: Adnana, Z., & Mazlan, N.M.
  • Year: 2024
  • Journal: Advances in Materials Research (South Korea)
  • Citations: 0

 

Mengyao Li | Engineering | Best Researcher Award

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Dr. Mengyao Li | Engineering | Best Researcher Award

Student at Nanyang Technological University Singapore

Mengyao Li is a dedicated researcher specializing in electromagnetic fields, metasurfaces, and frequency-selective structures. With a strong academic foundation and a passion for advancing next-generation communication and radar technologies, Li has made significant contributions to the field of low-RCS antenna-radome systems, lens antennas, and THz reconfigurable intelligent surfaces. His research focuses on innovative solutions that enhance wave manipulation, beamforming, and scattering control, making a direct impact on applications in wireless communication and stealth technology. As a Ph.D. candidate at Nanyang Technological University (NTU), Singapore, under the guidance of Prof. Shen Zhongxiang (IEEE Fellow), Li has published extensively in top-tier journals and continues to explore novel electromagnetic solutions. His work not only bridges theoretical advancements with practical applications but also aligns with the future demands of 6G wireless networks and advanced sensing technologies, solidifying his position as an emerging expert in the field.

Professional Profile

Education

Mengyao Li began his academic journey with a B.S. in Electrical Engineering from the Communication University of China, Beijing, specializing in Telecommunication Engineering. Graduating in 2020 with a GPA of 3.59/4.0, he ranked among the top 8% of students and was recognized as an Outstanding Graduate of Beijing. His undergraduate research focused on reconfigurable frequency-selective absorbers, laying a strong foundation for his future work. In January 2021, he pursued a Ph.D. in Electrical and Electronic Engineering at Nanyang Technological University, Singapore, specializing in Electromagnetic Fields and Microwave Technology. Under the supervision of Prof. Shen Zhongxiang, his doctoral research centers on low-RCS integrated radome and antenna systems, aiming to develop advanced solutions for stealth technology and wireless communication. Throughout his academic career, Li has demonstrated strong analytical skills and research capabilities, contributing to the advancement of electromagnetic and antenna engineering.

Professional Experience

As a Ph.D. researcher at Nanyang Technological University, Mengyao Li has been actively engaged in cutting-edge research in the field of electromagnetic wave manipulation, metasurfaces, and antenna systems. His professional work focuses on designing low-RCS antennas, frequency-selective structures, and THz reconfigurable intelligent surfaces, contributing to innovations in stealth technology and high-frequency communication. Collaborating with leading academics and industry experts, he has developed practical solutions for beam manipulation, conformal lens antennas, and ultra-wideband absorptive structures. His research has been published in top IEEE journals, showcasing his ability to bridge theoretical concepts with practical engineering applications. In addition to research, he actively mentors junior researchers, contributes to technical discussions, and engages in academic collaborations to advance antenna and metamaterial technologies. His expertise and technical acumen make him a promising figure in the field of advanced electromagnetic applications.

Research Interests

Mengyao Li’s research interests lie at the intersection of electromagnetic wave engineering, metasurfaces, and reconfigurable intelligent surfaces (RIS), with a strong emphasis on low-RCS antenna-radome systems, lens antennas, and THz wireless communication. His work on low-scattering antenna structures contributes to stealth and radar applications, while his innovative metasurface designs enable advanced beam steering and polarization control. Additionally, he explores MEMS-based THz metasurfaces, which hold promise for 6G wireless networks and high-frequency communication systems. His research on frequency-selective structures and transmissive antennas bridges the gap between traditional electromagnetic theory and modern reconfigurable technologies. By integrating material science, physics, and advanced fabrication techniques, Li’s research aims to create high-performance, miniaturized, and dynamically tunable electromagnetic structures, making a significant impact on next-generation wireless technologies and radar systems.

Awards and Honors

Throughout his academic journey, Mengyao Li has received multiple recognitions for his research excellence. As an Outstanding Graduate of Beijing, he was acknowledged for his academic performance and early contributions to telecommunication engineering. His Ph.D. research at NTU has been supported by prestigious funding, reflecting the significance of his work in low-RCS antenna systems and metasurface engineering. His journal publications in IEEE Transactions on Antennas and Propagation and IEEE Antennas Wireless Propagation Letters further highlight his research impact in the field. Li’s innovative contributions to reconfigurable intelligent surfaces and frequency-selective radomes have been well-received in the academic community, earning him invitations to collaborate with leading researchers. With his strong research background and growing influence in electromagnetic wave control and antenna design, he continues to make valuable contributions to the field, positioning himself as a rising expert in advanced electromagnetics and wireless technology.

Conclusion

Mengyao Li is a strong candidate for the Best Researcher Award, with a solid publication record, cutting-edge research contributions, and expertise in emerging electromagnetic technologies. However, improving the real-world impact, conference visibility, and interdisciplinary collaboration could further solidify the case for this award. If these areas are strengthened, Mengyao Li could become a leading figure in electromagnetic and metasurface research.

Publications Top Noted

  • Y. Ding, M. Li, J. Su, Q. Guo, H. Yin, Z. Li, J. Song – 2020 – 70 citations
    β€œUltrawideband frequency-selective absorber designed with an adjustable and highly selective notch.”
    IEEE Transactions on Antennas and Propagation 69 (3), 1493-1504

  • M. Li, L. Zhou, Z. Shen – 2021 – 30 citations
    β€œFrequency selective radome with wide diffusive bands.”
    IEEE Antennas and Wireless Propagation Letters 21 (2), 327-331

  • M. Li, Z. Shen – 2023 – 13 citations
    β€œLow-RCS transmitarray based on 2.5-D cross-polarization converter.”
    IEEE Transactions on Antennas and Propagation 71 (7), 5828-5837

  • M. Li, Z. Shen – 2023 – 5 citations
    β€œIntegrated diffusive antenna array of low backscattering.”
    IEEE Antennas and Wireless Propagation Letters

  • M. Li, Z. Shen – 2022 – 3 citations
    β€œHybrid Frequency Selective Rasorber Combining 2-D and 3-D Resonators.”
    2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI

  • M. Li, J. Su – 2020 – 1 citation
    β€œWideband frequency-selective absorber based on metal cross ring.”
    2020 IEEE MTT-S International Microwave Workshop Series on Advanced

  • M. Li, Z. Shen – 2024 – Not yet cited
    β€œHybrid Rasorber Based on 3-D Bandpass Frequency-Selective Structures.”
    IEEE Antennas and Wireless Propagation Letters

  • M. Li – 2024 – Not yet cited
    β€œIntegrated radome and antenna systems of low radar cross section.”
    Nanyang Technological University (Ph.D. Dissertation)

  • M. Li, Z. Shen – 2023 – Not yet cited
    β€œHighly Selective Third-Order Bandpass Frequency Selective Surface.”
    2023 International Conference on Electromagnetics in Advanced Applications

  • M. Li, Z. Shen – 2023 – Not yet cited
    β€œTransmission Phase Controllable Rasorber Using All-Metal Cross-Polarization Converter.”
    2023 IEEE International Symposium on Antennas and Propagation and USNC-URSI

  • M. Li, Z. Shen – 2022 – Not yet cited
    β€œLow-RCS Transmitarray Using Phase Controllable Absorptive Frequency-Selective Structure.”
    2022 International Conference on Electromagnetics in Advanced Applications

  • M. Li, Z. Shen – 2021 – Not yet cited
    β€œRCS Reduction of Slot Antenna Array Using Coding Metasurfaces.”
    2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI

Chung-Horng Lung | Engineering | Best Researcher Award

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Chung-Horng Lung | Engineering | Best Researcher Award

Full Professor at Carleton University, Canada

Dr. Chung-Horng Lung is a distinguished professor in the Department of Systems and Computer Engineering at Carleton University, Ottawa. With a career spanning over three decades in academia and industry, he has made significant contributions to software engineering, network security, and artificial intelligence. Recognized as one of the world’s top 2% most-cited researchers (Stanford-Elsevier, 2022 & 2023), his work has influenced various domains, including machine learning-based security systems, intelligent data processing, and network optimization. Prior to joining Carleton University, he held senior engineering positions at Nortel Networks, where he worked on software architecture, network traffic engineering, and MPLS-based communication technologies. His extensive research, mentorship, and interdisciplinary collaborations have earned him a reputation as a leading scholar in his field. Alongside his academic contributions, Dr. Lung is also a Professional Engineer (P.Eng.) in Ontario, further validating his expertise and impact in the engineering community.

Professional Profile

Education

Dr. Lung holds a Ph.D. in Computer Science and Engineering from Arizona State University, Tempe, earned in 1994. His journey in academia began with a Master’s degree in Computer Science and Engineering from the same institution in 1988, following a Bachelor’s degree in Computer Science and Engineering from Chung-Yuan Christian University, Taiwan, in 1982. His academic background provided him with a strong foundation in software engineering, network security, and intelligent computing. During his doctoral studies, he worked extensively on distributed systems and software engineering methodologies, laying the groundwork for his future research. His educational trajectory showcases a commitment to innovation and excellence, equipping him with the expertise needed to bridge academia and industry. Through continuous learning and research advancements, Dr. Lung has remained at the forefront of emerging technologies in computing and engineering.

Professional Experience

Dr. Lung has a rich professional background in both academia and industry. He is currently a Professor at Carleton University, where he has been a faculty member since 2001. Before becoming a full professor in 2015, he served as an Associate Professor in the same department. His industry experience includes senior roles at Nortel Networks, where he worked as a Senior Software Designer and Network Engineer on Optical Packet Interworking and MPLS-based Traffic Engineering. He was also a Senior Software Architecture Engineer at Nortel’s Software Engineering Analysis Lab (SEAL), contributing to critical advancements in software engineering and network technologies. Additionally, he has worked as an Instructor and Research Assistant at Arizona State University and a Software Engineer at Electronics Research & Service Organization in Taiwan. His diverse career path reflects his versatility and expertise in both theoretical and applied computing disciplines.

Research Interests

Dr. Lung’s research focuses on machine learning, cybersecurity, software engineering, and network optimization. His work in machine learning-based intrusion detection systems (IDS) has led to the development of AI-driven security solutions for SCADA and power systems. Additionally, his research on knowledge graphs and unstructured data processing has contributed to advancements in data-driven decision-making. His expertise extends to network traffic analysis, software reliability engineering, and intelligent data sampling, with applications in forest fire detection, industrial automation, and smart city infrastructures. His interdisciplinary approach has fostered collaborations with academic institutions, industry partners, and government agencies, ensuring that his research has real-world impact. By integrating AI, cybersecurity, and software engineering principles, Dr. Lung continues to explore innovative solutions to modern technological challenges.

Awards and Honors

Dr. Lung has received numerous accolades throughout his career, with his most notable recognition being listed among the world’s top 2% most-cited scholars (Stanford-Elsevier, 2022 & 2023). This honor reflects the global impact of his research and his contributions to computer science and engineering. Additionally, he is a registered Professional Engineer (P.Eng.) in Ontario, demonstrating his adherence to the highest professional standards in engineering. Over the years, he has received multiple best paper awards, research grants, and industry recognitions for his work in machine learning, cybersecurity, and network optimization. His mentorship of students and early-career researchers has also been acknowledged through teaching excellence awards and faculty recognitions. With a distinguished academic and professional career, Dr. Lung continues to push the boundaries of innovation in computing and engineering, solidifying his position as a leading researcher in the field.

Conclusion

Dr. Chung-Horng Lung is a highly qualified and impactful researcher, making significant contributions in Computer Science, Machine Learning, and Network Engineering. His strong publication record, industry experience, and citation impact make him a strong contender for the Best Researcher Award. Addressing minor gaps in funding details, patents, and international collaborations could further strengthen his case.

Publications Top Noted

πŸ“– Journal Articles

1️⃣ In-Network Caching for ICN-Based IoT (ICN-IoT): A Comprehensive Survey πŸ†

  • Author(s): Zhang, Z., Lung, C.-H., Wei, X., Chatterjee, S., Zhang, Z.
  • Year: 2023
  • Citations: 41 πŸ”₯
  • Published in: IEEE Internet of Things Journal

2️⃣ iCache: An Intelligent Caching Scheme for Dynamic Network Environments in ICN-Based IoT Networks 🧠

  • Author(s): Zhang, Z., Wei, X., Lung, C.-H., Zhao, Y.
  • Year: 2023
  • Citations: 17 πŸ“ˆ
  • Published in: IEEE Internet of Things Journal

3️⃣ Knowledge Graph Generation and Application for Unstructured Data Using Data Processing Pipeline πŸ€–

  • Author(s): Sukumar, S.T., Lung, C.-H., Zaman, M., Panday, R.
  • Year: 2024
  • Citations: 0 (New Publication) πŸš€
  • Published in: IEEE Access

🎀 Conference Papers

4️⃣ A Federated Learning Framework Based on Spatio-Temporal Agnostic Subsampling (STAS) for Forest Fire Prediction πŸ”₯

  • Author(s): Mutakabbir, A., Lung, C.-H., Ajila, S.A., Sampalli, S., Ravichandran, T.
  • Year: 2024
  • Citations: 0 (New Publication) πŸš€
  • Published in: IEEE COMPSAC 2024

5️⃣ Comparative Analysis of Real-Time Data Processing Architectures: Kafka versus MQTT Broker in IoT πŸ“‘

  • Author(s): Ho, C.L.D., Lung, C.-H., Mao, Z.
  • Year: 2024
  • Citations: 0 (New Publication) πŸš€
  • Published in: IEEE ICEIB 2024

6️⃣ DDoS Flood Detection and Mitigation using SDN and Network Ingress Filtering – an Experiment Report πŸ›‘οΈ

  • Author(s): Marleau, S., Rahman, P., Lung, C.-H.
  • Year: 2024
  • Citations: 0 (New Publication) πŸš€
  • Published in: IEEE ICEIB 2024

7️⃣ Big Data Synthesis and Class Imbalance Rectification for Enhanced Forest Fire Classification Modeling πŸ”₯πŸ“Š

  • Author(s): Tavakoli, F., Naik, K., Zaman, M., Lung, C.-H., Ravichandran, T.
  • Year: 2024
  • Citations: 0 (New Publication) πŸš€
  • Published in: International Conference on Agents and Artificial Intelligence

8️⃣ Forest Fire Prediction Using Multi-Source Deep Learning 🌲πŸ”₯

  • Author(s): Mutakabbir, A., Lung, C.-H., Ajila, S.A., Purcell, R., Sampalli, S.
  • Year: 2024
  • Citations: 0 (New Publication) πŸš€
  • Published in: LNICST Conference Proceedings

9️⃣ A Data Integration Framework with Multi-Source Big Data for Enhanced Forest Fire Prediction 🌍πŸ”₯

  • Author(s): Kaur, P., Naik, K., Purcell, R., Zaman, M., Mutakabbir, A.
  • Year: 2023
  • Citations: 1 πŸ“Š
  • Published in: IEEE Big Data 2023

πŸ”Ÿ Unstructured Transportation Safety Board Findings Categorization Using the Knowledge Graph Pipeline πŸš—πŸ“Š

  • Author(s): Panday, R., Lung, C.-H.
  • Year: 2023
  • Citations: 1 πŸ†
  • Published in: IEEE Big Data 2023

 

Aakriti | Engineering | Research and Development Achievement Award

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Ms. Aakriti | Engineering | Research and Development Achievement Award

PhD student at CSIR-Central Building Research Institute, India

Aakriti Baliyan is a PhD candidate in Chemical Sciences, specializing in the synthesis of chemical additives from FGD gypsum for sustainable building materials. Her research focuses on green materials, contributing to low-carbon construction solutions. Aakriti has a strong publication record and extensive experience in waste utilization, including the development of water-resistant binders and hybrid cementitious materials. She possesses a diverse technical skill set, including Life Cycle Assessment and various analytical techniques. With a background in mentoring and interdisciplinary collaboration, Aakriti is dedicated to advancing sustainable practices in her field.

Profile:

Google scholar

Strengths for the Award:

  1. Innovative Research Focus:
    • Aakriti’s PhD research on utilizing FGD gypsum for developing chemical additives and composite binders represents a significant contribution to sustainable building materials. This aligns well with current environmental priorities.
  2. Strong Publication Record:
    • Aakriti has a notable number of publications in reputable journals, demonstrating her ability to conduct impactful research. Her articles address critical issues in low-carbon construction, showcasing her expertise and commitment to advancing the field.
  3. Interdisciplinary Collaboration:
    • Her collaborative work with NTPC and involvement in various interdisciplinary projects highlight her ability to work effectively in team settings, enhancing the practical applicability of her research.
  4. Technical Proficiency:
    • Aakriti possesses extensive technical skills and research methodologies, such as Life Cycle Assessment (LCA) and various analytical techniques. This versatility enables her to tackle complex research problems effectively.
  5. Mentorship and Outreach:
    • She has mentored graduate students and engaged in workshops, which reflects her commitment to knowledge sharing and capacity building in her field.

Areas for Improvement:

  1. Broader Research Impact:
    • While Aakriti has made significant strides in her niche area, expanding her research to include more diverse applications or collaborating with industries outside the construction sector could enhance her overall impact.
  2. Increased Visibility:
    • Engaging more actively in international conferences and networking opportunities could improve her visibility and foster collaborations that enhance her research profile.
  3. Grant Acquisition:
    • Focusing on obtaining research grants can support her projects and facilitate the scaling of her innovative solutions, thus increasing her research’s reach and impact.
  4. Public Engagement:
    • Strengthening efforts in public outreach and education about the benefits of green materials can help raise awareness and promote sustainable practices in construction.

Education:

Aakriti Baliyan holds a Ph.D. in Chemical Sciences from the Academy of Scientific and Innovative Research (AcSIR), CSIR-Central Building Research Institute, Roorkee, where her research focuses on utilizing FGD gypsum for developing chemical additives and composite binders in sustainable construction. Prior to her doctoral studies, she completed an M.Sc. in Applied Chemistry from Amity University Noida, where she worked on polymeric transdermal patches for topical applications. She also earned a B.Ed. in Physical and Biological Sciences from Chaudhary Charan Singh University and a B.Sc. in Life Sciences from the University of Delhi. This diverse educational background has equipped her with strong interdisciplinary knowledge across chemical sciences, education, and applied life sciences.

Experience:

Aakriti Baliyan has extensive research experience in the field of chemical sciences, with a focus on the utilization of industrial byproducts like FGD gypsum for developing sustainable construction materials. Her work includes the synthesis of chemical additives, water-resistant binders, and lightweight plasters, contributing to low-carbon and eco-friendly building solutions. She has collaborated with major national organizations like NTPC and the Department of Science and Technology, working on projects related to both modern construction materials and heritage conservation. Aakriti’s technical expertise spans advanced analytical techniques (SEM, FTIR, LCA) and various scientific software, while her contributions are backed by a strong publication record in peer-reviewed journals. Additionally, she has mentored students and presented her research at international conferences, demonstrating her capability to lead and innovate within her field.

Research Focus:

Aakriti Baliyan’s research primarily focuses on the utilization of industrial byproducts, specifically FGD gypsum, to develop sustainable construction materials. Her work aims to create eco-friendly, low-carbon solutions such as water-resistant binders, lightweight plasters, and hybrid cementitious binders that can be used in both interior and exterior applications. She addresses critical issues like high porosity and poor water resistance in FGD gypsum by synthesizing chemical additives to improve its properties. Her research also includes a Life Cycle Assessment (LCA) to evaluate the environmental impact of these materials, contributing to the advancement of green construction technologies. Additionally, Aakriti’s work extends to the conservation of heritage structures, where she develops gypsum-based repair materials to preserve historical buildings, showcasing her interdisciplinary approach to sustainable materials science.

Publications Top Notes:

  • A Comprehensive Review of Flue Gas Desulphurized Gypsum: Production, Properties, and Applications
    Authors: S. Maiti, N. Jain, J. Malik
    Year: 2023
    Citation: Construction and Building Materials, 393, 131918.
  • Light Weight Plasters Containing Vermiculite and FGD Gypsum for Sustainable and Energy Efficient Building Construction Materials
    Authors: S. Maiti, N. Jain, J. Malik, A. Baliyan
    Year: 2023
    Citation: Journal of The Institution of Engineers (India): Series A, 1-12.
  • Calcium Sulphate Whiskers (CSW) an Innovative Material for Civil Engineering Applications: A Critical Review of Its Preparation, Characterization, Current Trends, and Prospects
    Authors: A. Bhardwaj, S. Maiti, N. Jain, A. Pathak, R. R. Gupta
    Year: 2024
    Citation: Construction and Building Materials, 420, 135624.
  • Development of Sustainable Water-Resistant Binder with FGD Gypsum & Fly Ash, and Its Environmental Impact Evaluation via Carbon Footprint and Energy Consumption Analysis
    Authors: N. Jain, S. Maiti, J. Malik, D. Sondhi
    Year: 2024
    Citation: Sustainable Chemistry and Pharmacy, 37, 101376.
  • Synthesis of Calcium Sulfate Whiskers via Acidification Exploiting FGD Gypsum for Improved Binder Properties
    Authors: P. P., Aakriti, S. Maiti, N. Jain
    Year: 2024
    Citation: Sustainable Chemistry and Pharmacy, 42, 101745.

Conclusion:

Aakriti Baliyan’s research in the field of chemical additives, sustainable construction materials, and waste utilization demonstrates significant potential for her to be a strong candidate for the Best Researcher Award. Her innovative contributions to the development of eco-friendly building materials, strong publication record, technical expertise, and engagement in interdisciplinary projects highlight her as a promising researcher. With further international collaborations and expansion into diverse areas of waste management, Aakriti’s profile would be even more competitive for major research accolades.

Wenjun Bai | Engineering | Best Researcher Award

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Dr. Wenjun Bai | Engineering | Best Researcher Award

Engineer, National Key Laboratory of Transient Impact/ No.208 Research Institute of China Ordnance Industries, China

Wenjun Bai is an engineer specializing in impact and protection at the National Key Laboratory of Transient Impact, No. 208 Research Institute of China Ordnance Industries. After obtaining his Ph.D. in Power Machinery and Engineering from Beijing Institute of Technology in June 2023, he has contributed significantly to the field through multiple high-impact publications and patents. His research focuses on enhancing the understanding and development of materials and technologies for defense applications.

Profile

Scopus

Evaluation for β€œBest Researcher Award” Nomination

Strengths for the Award:

Wenjun Bai demonstrates a strong research background, particularly in the fields of impact protection and the mechanical properties of composites. With a recent Ph.D. from the prestigious Beijing Institute of Technology, Wenjun has quickly made significant contributions to the field, as evidenced by five peer-reviewed publications in reputable journals such as Composites Science and Technology and Mechanics of Advanced Materials and Structures. His work on the critical size determination of the Representative Volume Element (RVE) model, which enhances the evaluation of composite materials, is particularly noteworthy. Furthermore, Wenjun has been granted a national invention patent, showcasing his ability to translate research into practical applications. His involvement in both completed and ongoing national defense projects underlines his research’s relevance and impact in critical areas. These accomplishments position Wenjun as a leading young researcher in his field, making him a strong candidate for the β€œBest Researcher Award.”

Areas for Improvement:

Despite his impressive achievements, Wenjun could benefit from expanding his research’s visibility and impact through more extensive collaborations and by seeking editorial appointments in his field. Additionally, while his work is highly specialized, broadening his research scope to include interdisciplinary studies could further strengthen his candidacy. Engaging in international collaborations and increasing his presence in global scientific communities would also enhance his research profile. Furthermore, obtaining professional memberships in relevant organizations could provide him with additional platforms for recognition and professional development.

Education πŸŽ“

Wenjun Bai earned his Ph.D. in Power Machinery and Engineering from Beijing Institute of Technology in 2023. His academic journey has been marked by a deep interest in the mechanics of materials, particularly in the context of impact and protection, which he continues to explore in his professional career.

Experience πŸ’Ό

Wenjun Bai is currently an engineer at the National Key Laboratory of Transient Impact. Since 2023, he has been involved in critical defense-related research projects, including studies on large-diameter technology and intelligent systems. His expertise in mechanical property analysis and failure mechanics of composite materials has led to several noteworthy publications and patents.

Research Interests πŸ”¬

Wenjun Bai’s research primarily revolves around impact and protection, with a focus on mechanical property and failure analysis of advanced composite materials. His work aims to enhance the resilience and efficiency of materials used in defense applications, particularly in the development of metal-toughened ceramics and fiber-reinforced composites.

Awards πŸ†

  • National Invention Patent: Granted on April 27, 2021, for a method predicting equivalent mechanical properties of long fiber-reinforced composites.
  • Young Scientist Award Nominee: For contributions to material science and engineering, particularly in the field of defense technology.

PublicationsTop Notes πŸ“š

  1. Determination of the representative volume element model critical size for carbon fiber reinforced polymer composites
    Composites Science and Technology, 2023
    Cited by 10 articles.
  2. Study of the effect of random interfacial debonded on the elastic constants of carbon fiber composites
    Mechanics of Advanced Materials and Structures, 2024
    Cited by 1 article.
  3. A new method for generating the random fiber arrangement of representative volume element for unidirectional fiber reinforced composites
    Mechanics of Advanced Materials and Structures, 2023
    Cited by 1 article.
  4. Study of the effect of void defects on the mechanical properties of fiber reinforced composites
    Mechanics of Advanced Materials and Structures, 2024
  5. Study on the secondary fragment formation characteristic and search reconstruction algorithm
    International Conference on Defence Technology, 2024
    Accepted.

Conclusion:

Wenjun Bai’s rapid progression in his research career, coupled with his contributions to the field of impact protection and composite materials, makes him a strong contender for the β€œBest Researcher Award.” His work is not only academically rigorous but also has significant practical applications, particularly in national defense. While there are areas for potential growth, such as expanding his research network and increasing his professional visibility, Wenjun’s current achievements and trajectory suggest that he is on a path to becoming a leading figure in his field. His nomination is well-deserved, and he has the potential to make even greater contributions to science and technology in the future.

 

 

SATYAVARTA KUMAR PRINCE | Engineering | Best Researcher Award

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Dr. SATYAVARTA KUMAR PRINCE | Engineering | Best Researcher Award

Ph.D, National Institute of Technology, Meghalaya, India

πŸŽ“ Dr. Satyavarta Kumar Prince is a distinguished Electrical Engineer with a Ph.D. from NIT Meghalaya. He has gained expertise in the protection schemes for DC microgrids, particularly in grid-connected and islanded modes. As a Research Associate at NIT Meghalaya, he has contributed significantly to the field of Electrical Engineering, focusing on power quality and microgrid protection.

Publication Profile

Google Scholar

Strengths for the Award:

  1. Academic Background: Dr. Satyavarta Kumar Prince has a solid academic foundation with a Ph.D. in Electrical Engineering from NIT Meghalaya. His research is focused on protection schemes for DC microgrids, a cutting-edge topic in electrical engineering.
  2. Research Experience: As a Research Associate at NIT Meghalaya, he gained practical experience in his field, contributing to his depth of knowledge and expertise.
  3. Publications: He has published multiple papers in high-impact journals, such as IEEE Transactions on Industry Applications and International Journal of Green Energy, showcasing his contributions to the field of electrical engineering, particularly in the area of microgrid protection.
  4. Recognition: His work has been recognized by the scientific community, as evidenced by his publications in well-regarded journals with substantial impact factors.
  5. GATE Qualification: He qualified for GATE twice, demonstrating his strong grasp of electrical and electronics engineering principles.

Areas for Improvement:

  1. Broader Impact: While his research is impressive, the focus is primarily on DC microgrids. Expanding his research to include other areas of electrical engineering could enhance his profile.
  2. Professional Development: Engaging in additional research projects, collaborations, or gaining international exposure could further bolster his candidacy.
  3. Teaching and Mentorship: There is no mention of teaching or mentorship roles, which are often valued in research awards. Contributing to the academic growth of others could be an area for development.
  4. Leadership Roles: Involvement in leading research projects, conferences, or professional organizations could strengthen his profile.

 

Education

πŸŽ“ Dr. Prince completed his Ph.D. in Electrical Engineering from NIT Meghalaya in 2023, achieving a CGPA of 8.60. His doctoral research focused on protection schemes for DC microgrids. He also holds an M.Tech. in Power and Energy Systems from NIT Meghalaya, completed in 2018, and a B.Tech. in Electrical and Electronics Engineering from Magadh University, where he graduated with 72.89% in 2011.

Experience

πŸ’Ό Dr. Prince served as a Research Associate in the Electrical Engineering Department at NIT Meghalaya from March 2023 to November 2023. His work involved advanced research on microgrid protection schemes, contributing to the academic and research environment at the institute.

Research Focus

πŸ”¬ Dr. Prince’s research primarily focuses on the protection of DC microgrids in various operational scenarios, including grid-connected and islanded modes. His work aims to enhance power quality and develop resilient protection mechanisms for modern electrical systems.

Awards and Honours

πŸ† Dr. Prince has successfully qualified GATE in Electrical and Electronics Engineering in both 2016 and 2017, demonstrating his strong foundational knowledge in the field.

Publication Top Notes

πŸ“š Dominant/Lower Order Harmonic Injection-based Electric Fault Detection for DC Microgrids in Grid Coupled/Decoupled Scenarios
Published in IEEE Transactions on Industry Applications (2023), DOI: 10.1109/TIA.2023.3332314
Cited by: 4 articles

πŸ“š Protection of DC Microgrids based on Complex Power during Faults in On/Off-Grid Scenarios
Published in IEEE Transactions on Industry Applications (2023), Volume 59, Issue 1, pp. 244-254
Cited by: 12 articles

πŸ“š Resilient Bus-Bar Protection Scheme for DC Microgrids Connected to AC Electric Grids
In-Press in International Journal of Green Energy (Taylor & Francis)
Cited by: 2 articles

πŸ“š Challenges and Advancements in Protection of DC Microgrid System-A Comprehensive Review
Published in Energy Sources, Part A: Recovery, Utilization, and Environmental Effects (2022), Volume 44, Issue 4, pp. 10481-10505
Cited by: 15 articles

Conclusion:

Dr. Satyavarta Kumar Prince is a strong candidate for the Research for Best Researcher Award. His academic achievements, research publications, and contributions to the field of electrical engineering, particularly in microgrid protection, make him a noteworthy contender. However, broadening his research scope, engaging in more diverse professional activities, and taking on leadership roles could further enhance his candidacy