Moina Ajmeri | Sustainable Development | Best Research Article Award

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Dr. Moina Ajmeri | Sustainable Development | Best Research Article Award

Assitant Professor at National Institute of Technology Patna, India

Dr. Moina Ajmeri is a dedicated and accomplished academic serving as an Assistant Professor (Grade-II, Level-11) in the Department of Electrical Engineering at the National Institute of Technology (NIT) Patna. With an impressive h-index of 8 and over 298 citations, Dr. Ajmeri has made significant contributions to the fields of control systems, power electronics, and renewable energy systems. Throughout her career, she has demonstrated a strong commitment to research, teaching, and innovation, underlined by her involvement in several patents and high-impact journal publications. Her multidisciplinary approach and passion for advancing control techniques for complex industrial processes and energy applications have positioned her as an influential voice in her field.

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Education

Dr. Ajmeri holds a Ph.D. in Electrical Engineering from the prestigious Indian Institute of Technology (IIT) Patna, completed in 2016. Her doctoral research focused on the development of new two-degree-of-freedom control schemes tailored for integrating and unstable processes with time delay, and she graduated with a commendable CPI of 8.93/10. She also holds an M.Tech. in Electronics and Communication Engineering from Birla Institute of Technology, Mesra, Ranchi, which she completed in 2010, securing an excellent academic score of 88.50%. Her undergraduate foundation in engineering was established at Magadh University, Bodh Gaya, where she earned a B.Sc. Engineering in Electronics and Communication with distinction, obtaining 82.33% marks.

Experience

Dr. Ajmeri’s professional journey began at NIT Patna, where she joined as an Assistant Professor (On Contract) in the Department of Electronics and Communication Engineering in 2015. Post completion of her Ph.D., she transitioned to a permanent faculty role in the Department of Electrical Engineering in 2018, and since September 2022, she has held her current position as an Assistant Professor (Grade-II, Level-11). During this period, she has combined her academic instruction with active research, mentoring students, and contributing to the academic and administrative growth of the department.

Research Interest

Dr. Ajmeri’s research interests lie in process modeling and system identification, control design for both linear and nonlinear systems, and advanced control applications for power electronic circuits. Her expertise also extends to micro-grids and renewable energy systems, where she seeks to develop robust and efficient control strategies to meet the demands of modern sustainable energy networks. Her research stands at the crossroads of theory and application, striving to solve real-world industrial challenges while pushing the boundaries of control systems engineering.

Award

In recognition of her research excellence and commitment to innovation, Dr. Ajmeri has been an instrumental contributor to two patents related to high-gain DC-DC boost converter technologies, co-filed in 2023 under the aegis of NIT Patna. These patents are designed to address the challenges of high switching frequencies and multi-level energy conversion, which are pivotal in renewable energy and power electronic systems. These innovations showcase her practical problem-solving skills and her vision for transforming power electronics.

Publication

Dr. Ajmeri’s scholarly output features several high-impact journal articles. Selected examples include:

Ajmeri, M. (2024). “Novel twofold control for delayed industrial processes with integrating and inverse response characteristics,” IFAC Journal of Systems and Control (Q3).

Kumar, P., & Ajmeri, M. (2025). “A non-isolated buck-boost converter based on SEPIC topology for renewable energy applications,” Computers and Electrical Engineering, Volume 124, Part A.

Kumar, S., & Ajmeri, M. (2023). “Smith predictor–based sliding mode control with hyperbolic tangent function for unstable processes,” Transactions of the Institute of Measurement and Control (Q2).

Ajmeri, M. (2022). “Analytical design of enhanced PID controller with set-point filter for unstable processes with time delay,” International Journal of Dynamics and Control (Q2).

Ajmeri, M., & Ali, A. (2017). “Analytical design of modified Smith predictor for unstable second-order processes with time delay,” International Journal of Systems Science (Q1).

Ajmeri, M., & Ali, A. (2015). “Two degree of freedom control scheme for unstable processes with small time delay,” ISA Transactions (Q1).

Ajmeri, M., & Ali, A. (2013). “Direct synthesis based tuning of the parallel control structure for integrating processes,” International Journal of Systems Science (Q1).

These publications have not only been cited by numerous international researchers but have also inspired new studies in both academic and industrial circles, attesting to their significant scholarly impact.

Conclusion

Dr. Moina Ajmeri’s research work exemplifies academic excellence, innovation, and societal relevance. Her consistent contributions to the field of advanced control systems and renewable energy technologies have set a high benchmark for scientific research. The nominated article reflects both technical brilliance and real-world applicability, making her an ideal candidate for the Research for Best Research Article Award. Dr. Ajmeri’s dedication to pushing the boundaries of engineering knowledge and her impactful publications make her deserving of this prestigious recognition.

LIN LIU | Sustainable Development | Women Researcher Award

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Dr. LIN LIU | Sustainable Development | Women Researcher Award

Research Assistant at University of Technology Sydney, Australia

Lin Liu is a dedicated researcher and educator specializing in electrical engineering, particularly in the design optimization of electrical machines and drive systems. Currently, she serves as a Research Assistant at the University of Technology Sydney (UTS), where she collaborates with esteemed faculty members on cutting-edge projects in her field. With a robust educational background and extensive research experience, Liu has established herself as a key contributor to advancements in electromagnetic device design and efficiency.

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Education

Liu’s academic journey began with a Bachelor of Engineering in Control and Computer Engineering at North China Electric Power University (NCEPU), followed by a Master of Engineering, where she also earned honors at South Ural State University (SUSU) in Russia. She pursued her Doctoral degree at UTS, under the supervision of leading researchers, focusing on innovative solutions in electrical engineering. Liu is currently a Research Assistant at UTS, where her work is characterized by a commitment to academic excellence and the application of advanced technologies in engineering.

Experience

Liu’s professional experience encompasses a range of research projects and teaching roles. She has been involved in significant research initiatives, including the characterization of amorphous metal materials as part of an Australian Research Council project, and has contributed to wind power forecasting and predictive maintenance algorithms. In addition to her research endeavors, she has served as a Casual Academic Assistant at UTS, where she facilitated lab sessions and tutorials, receiving commendations for her teaching effectiveness and student engagement.

Research Interests

Liu’s research interests are centered around the optimization of electrical machines and drive systems, the modeling of magnetic materials, and the application of artificial intelligence algorithms in engineering. Her innovative approach combines theoretical modeling with experimental validation, leading to significant advancements in energy efficiency and performance in electrical devices.

Awards

Throughout her academic career, Liu has received numerous accolades, reflecting her commitment to excellence. Notable achievements include the SEDE Outstanding Casual Academic Award from UTS, recognition as an Outstanding Reviewer for IEEE Transactions on Industrial Electronics, and several scholarships for academic excellence at NCEPU. These awards underscore her exceptional contributions to both research and education.

Publications

Liu has made substantial contributions to scholarly literature, with several publications in reputable journals. Her key works include:

Liu, L., Ba, X., Guo, Y., Lei, G., Sun, X., & Zhu, J. (2022). “Improved iron loss prediction models for interior PMSMs considering coupling effects of multiphysics factors.” IEEE Transactions on Transportation Electrification, DOI: 10.1109/TTE.2022.3189504. (Cited by 25)

Liu, L., Guo, Y., Yin, W., Lei, G., Sun, X., & Zhu, J. (2024). “Efficient design optimization of PMSM drive systems using improved equivalent-circuit-based loss minimization control.” IEEE Transactions on Industrial Electronics. (Accepted)

Liu, L., Guo, Y., Lei, G., & Zhu, J. (2023). “Designing High-Power-Density Electric Motors for Electric Vehicles with Advanced Magnetic Materials.” World Electric Vehicle Journal, 14(4), article 114. (Cited by 15)

Liu, L., Guo, Y., & Zhu, J. (2021). “Iron loss calculation for high-speed permanent magnet machines considering rotating magnetic field and thermal effects.” IEEE Transactions on Applied Superconductivity, 31(8), 1-5. (Cited by 10)

Conclusion

Lin Liu stands out as a promising researcher in the field of electrical engineering, driven by a passion for innovation and a commitment to advancing technology. Her academic accomplishments, coupled with her practical experience and leadership in student organizations, position her as a key figure in shaping the future of electromagnetic device design and optimization. Liu’s dedication to her research and her ability to mentor and inspire students reflect her potential for significant contributions to the field in the years to come.

Jayaluxmi Naidoo | Sustainable Development | Best Researcher Award

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Prof Jayaluxmi Naidoo | Sustainable Development | Best Researcher Award

Professor Mathematics Education, University of KwaZulu-Natal, South Africa

Jayaluxmi Naidoo is an academic affiliated with the University of KwaZulu-Natal in Durban, South Africa. With a strong background in mathematics education, she has dedicated her career to enhancing teaching methodologies and learning experiences in higher education. Naidoo’s work emphasizes the integration of technology in education, particularly in response to the challenges posed by the COVID-19 pandemic. Her research has garnered significant attention, reflecting her commitment to fostering educational equity and excellence.

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Strengths for the Award

Jayaluxmi Naidoo demonstrates a strong commitment to advancing mathematics education through innovative research, particularly in the context of South Africa. With an h-index of 8 and 137 citations across 21 publications, her work has significantly impacted the field, showcasing her influence and recognition among peers. Naidoo’s focus on integrating technology in education, especially in response to the challenges posed by the COVID-19 pandemic, reflects her adaptability and forward-thinking approach. Her collaborations with other scholars indicate a capacity for teamwork and the ability to engage in multidisciplinary research, essential for addressing complex educational issues. Furthermore, her commitment to social justice in education enhances her candidacy, as it aligns with contemporary priorities in academia.

Areas for Improvement

While Naidoo has made notable contributions, there is potential for expanding her research to include more diverse populations and educational settings. Engaging in international collaborations could further enrich her work, providing broader perspectives and insights. Additionally, increasing her involvement in grant applications and funding opportunities could enhance the scale and impact of her research projects. Publishing in high-impact journals can also elevate her profile and reach a wider audience. Finally, fostering mentorship roles for emerging researchers could solidify her legacy and contribute to the growth of the academic community.

Education

Naidoo holds advanced degrees in education, focusing on mathematics pedagogy and technology integration in learning. Her academic journey has equipped her with the expertise to address contemporary educational challenges, particularly within the South African context. Through her studies, she has developed a nuanced understanding of the intersection between technology and education, enabling her to contribute effectively to discussions around digital learning environments and pedagogical innovations.

Experience

With years of experience in higher education, Naidoo has served in various roles that bridge teaching and research. She has been actively involved in curriculum development and has conducted workshops aimed at improving teaching practices among her peers. Her collaborations with co-authors and educational institutions reflect her dedication to collective growth in the academic community. Additionally, her involvement in research projects showcases her commitment to advancing knowledge in the field of mathematics education.

Awards and Honors

Naidoo has received recognition for her contributions to education, particularly in the realm of mathematics pedagogy and digital learning. Her publications have been widely cited, underscoring her influence in the academic community. She has also been involved in various initiatives aimed at promoting educational equity and innovation, earning accolades for her commitment to sustainable education practices.

Research Focus

Naidoo’s research primarily focuses on the integration of technology in mathematics education, exploring sustainable teaching methods in the context of the Fourth Industrial Revolution. She investigates the impact of digital tools on student learning and engagement, particularly during the COVID-19 pandemic. Her work addresses broader themes of social justice and educational equity, aiming to create inclusive learning environments that benefit all students.

Publication Top Notes

  • Social justice implications of digital science, technology, engineering and mathematics pedagogy: Exploring a South African blended higher education context 🌍
  • Embedding Sustainable Mathematics Higher Education in the Fourth Industrial Revolution Era Post-COVID-19: Exploring Technology-Based Teaching Methods 💻
  • Technology-Based Pedagogy for Mathematics Education in South Africa: Sustainable Development of Mathematics Education Post COVID-19 📚
  • Exploring the perceptions of Grade 5 learners about the use of videos and PowerPoint presentations when learning fractions in mathematics 🎥
  • A closer look at the academic support seeking behaviour of male undergraduate students 👨‍🎓
  • Context matters: Science, technology and mathematics education lecturers’ reflections on online teaching and learning during the covid-19 pandemic 🌐
  • Postgraduate mathematics education students’ experiences of using digital platforms for learning within the COVID-19 pandemic era 🖥️
  • Teachers’ perceptions of using the blended learning approach for STEM-related subjects within the fourth industrial revolution 🏫
  • Exploring Mathematics Teachers’ Professional Development: Embracing the Fourth Industrial Revolution 🛠️
  • Exploring the Flipped Learning Approach within a Mathematics Higher Education Milieu in the Era of the Fourth Industrial Revolution 🔄

Conclusion

In conclusion, Jayaluxmi Naidoo stands out as a strong candidate for the Best Researcher Award due to her impactful research, commitment to innovation in mathematics education, and focus on social justice. By addressing identified areas for improvement, she has the potential to further enhance her contributions to the field and inspire future generations of educators and researchers. Her work not only advances academic knowledge but also promotes equitable education practices, making her an invaluable asset to the research community.

Ashraf Darwish – Sustainable Development – Outstanding Scientist Award

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Ashraf Darwish - Sustainable Development - Outstanding Scientist Award

Faculty of science - Egypt

AUTHOR PROFILE

SCOPUS

🎓 ACADEMIC BACKGROUND

Ashraf Darwish is a distinguished academic with a PhD in Computer Science from St. Petersburg State University, Russia. His academic journey also includes a Master’s Degree in Computer Science and Mathematics from Tanta University, Egypt, where he laid the foundation for his extensive expertise in computational science. His educational background is further enriched by pre-PhD and pre-Masters courses in Computer Science and Mathematics, showcasing his commitment to continuous learning and development.

💻 PROFESSIONAL EXPERIENCE

Professor Ashraf Darwish is currently a Professor of Computer Science at Helwan University, Cairo, Egypt, where he has also served as an Associate Professor and Acting Head of the Mathematics Department. His career includes a pivotal role as the Cultural and Educational Attaché at the Embassy of Egypt in Kazakhstan, highlighting his leadership in both academic and diplomatic spheres. With years of experience in academia, he has contributed significantly to the development of computer science education and research at various prestigious institutions.

📚 TEACHING EXPERTISE

Ashraf Darwish has an extensive teaching portfolio, covering a wide range of subjects in computer science and mathematics. His teaching repertoire includes courses such as Artificial Intelligence, Machine Learning, Data Science, Cloud and Fog Computing, and Internet of Things, among others. His passion for teaching and ability to convey complex concepts have made him a respected figure among students and colleagues alike.

🔬 RESEARCH FOCUS

Professor Darwish's research is centered around Artificial Intelligence, Data Science, and Emerging Technologies. His work spans various cutting-edge areas, including Machine Learning, Bioinformatics, Computational Intelligence, and Blockchain Technology. He is particularly interested in the applications of AI in diverse fields, such as Chemoinformatics, Information Security, and Computer Vision, making substantial contributions to the advancement of technology and its real-world applications.

🌍 GLOBAL RECOGNITION

Ashraf Darwish has earned global recognition for his research, being ranked among the top 2% of the world’s most-cited scientists according to Stanford University's Ioannidis's index, published in both 2022 and 2023. His contributions to the fields of Artificial Intelligence, Image Processing, and Information and Communication Technologies have positioned him as a leading expert, further solidifying his impact on the global research community.

🏆 AWARDS AND HONORS

Throughout his career, Professor Darwish has received numerous accolades, including the prestigious award for being the best researcher at Helwan University in 2014. His continuous pursuit of excellence and dedication to his field have been recognized both nationally and internationally, underscoring his influence as a researcher and educator.

🌐 LANGUAGE AND CERTIFICATIONS

Fluent in multiple languages, including Arabic, English, Russian, and German, Ashraf Darwish's linguistic abilities complement his global academic and research endeavors. His certifications in these languages demonstrate his commitment to cross-cultural communication and collaboration, enhancing his effectiveness in international academic and professional environments.

NOTABLE PUBLICATION

Graphene and Graphene Based Nanocomposites for Bio-Medical and Bio-safety Applications
Authors: Verma, R., Kumar Gupta, S., Lamba, N.P., Bahadur, V., Chauhan, M.S.
Year: 2023
Journal: ChemistrySelect

Automotive applications of biodegradable polymers
Authors: Jineesh, A.G., Parameswaranpillai, J., Chavali, M., Hegde, C., Bhansali, P.R.
Year: 2023

Structurally modified compounds of hydroxychloroquine, remdesivir and tetrahydrocannabinol against main protease of SARS-CoV-2, a possible hope for COVID-19: Docking and molecular dynamics simulation studies
Authors: Mishra, D., Maurya, R.R., Kumar, K., Singh, P., Bahadur, I.
Year: 2021
Journal: Journal of Molecular Liquids

Aldehydes: Magnificent acyl equivalents for direct acylation
Authors: Kumar, P., Dutta, S., Kumar, S., Parmar, V.S., Singh, B.K.
Year: 2020
Journal: Organic and Biomolecular Chemistry

Cu-catalyzed one-pot multicomponent approach for the synthesis of symmetric and asymmetric 1,4-dihydropyridine (1,4-DHP) linked 1,2,3-triazole derivatives
Authors: Kaushik, P., Kumar, A., Kumar, P., Singh, B.K., Bahadur, V.
Year: 2020
Journal: Synthetic Communications

N-Directed Pd-Catalyzed Direct ortho-Acetoxylation and ortho-tert-Butoxylation of 2-Phenyl-4H-benzo[d][1,3]oxazin-4-ones via C-H Activation
Authors: Gupta, M., Kumar, S., Kumar, P., Bahadur, V., Singh, B.K.
Year: 2019
Journal: ChemistrySelect

Title: Microwave-Assisted Ruthenium-Catalysed ortho-C−H Functionalization of N-Benzoyl α-Amino Ester Derivatives
Authors: Sharma, N., Bahadur, V., Sharma, U.K., Singh, B.K., Van der Eycken, E.V.
Year: 2018
Journal: Advanced Synthesis and Catalysis