Saida Bedoui | Engineering | Best Researcher Award

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Dr. Saida Bedoui | Engineering | Best Researcher Award

Gabes University | Tunisia

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Early Academic Pursuits

Dr. Saida Bedoui’s academic journey is marked by an exceptional pursuit of knowledge and excellence in electrical engineering and related fields. She began her educational journey at Lycée République in Gabès, Tunisia, where she earned her Bachelor of Mathematics in June 2003. Following this, she attended the Higher Institute of Applied Sciences and Technology of Gabes, where she completed her preparatory classes for the National Engineering School with a focus on Physics and Mathematics in July 2005, securing admission to the engineering school. Her higher education was pursued at the National Engineering School of Gabes, where she obtained her degree in Electric-Automatic Engineering in July 2008, graduating with a “Very Good” rating. She further specialized by obtaining a Master's in Automatic and Intelligent Techniques in June 2009, also with a “Very Good” rating. Dr. Bedoui then achieved her PhD in Electrical Engineering in March 2013 with the highest honors, and later completed her Habilitation Thesis in Electrical Engineering at Gabes University in February 2023.

Professional Endeavors

Dr. Bedoui’s professional career spans several prestigious roles in academia. She started as a contractual lecturer at the National Engineering School of Gabes from 2008 to 2012. She then served as a lecturer at the Higher Institute of Applied Sciences and Technology of Gafsa from 2012 to 2013. Since September 2013, she has been an Assistant Professor at the Higher Institute of Industrial Systems of Gabes, where she has been involved in teaching a variety of subjects, including Automatic, Electronics, and Industrial Computing, at all levels of higher education.

Contributions and Research Focus

Dr. Bedoui’s research interests primarily focus on the identification and control of time-delay systems. Her PhD thesis contributed significantly to this field by proposing methods to identify time-delay systems, addressing the simultaneous identification of time delay and dynamic parameters of both mono-variable and multi-variable time-delay systems. Her work includes the development of new approaches for generating libraries of local models for nonlinear time-delay systems. Her contributions extend to supervising numerous graduate projects and theses. She has guided students in projects ranging from the design and implementation of road junction prototypes to the modernization of control systems for industrial applications.

Accolades and Recognition

Dr. Bedoui has been recognized for her work with various scholarships and research stays at esteemed institutions. Notably, she received a CSC scholarship for a research stay at Jiangnan University, PR China, in 2023. She has also undertaken research stays at the Laboratory of Engineering Systems in Caen, France, and the Research Center for Automatic Control of Nancy, France.

Impact and Influence

Dr. Bedoui has played a pivotal role in several significant projects and associations. She served as the project manager for the initiative "Strengthening the Capacity of the 4C Center in Training and Support for Students and Young Graduates of ISSI-Gabes" from January 2020 to February 2022. Additionally, she has been the Director of the Career Center and Skills Certification and has been actively involved with the Tunisian Association of Automatic and Digitizing in various capacities since 2010.

Legacy and Future Contributions

Dr. Bedoui’s legacy is characterized by her dedication to advancing the field of electrical engineering through both education and research. Her extensive teaching experience, coupled with her innovative research, has made significant contributions to the academic community. Her work continues to influence the development of automatic and intelligent systems.

 

Notable Publications

Iterative parameter identification for Hammerstein systems with ARMA noises by using the filtering identification idea 2024

On the combined estimation of the parameters and the states of fractional-order systems 2023 (2)

Diagnosis and fault tolerant control against actuator fault for a class of hybrid Dynamic systems 2023 (3)

Convergence Analysis of Forgetting Factor Least Squares Algorithm for ARMAX Time-Delay Models 2022 (1)

Parameter and State Estimation of Nonlinear Fractional-Order Model Using Luenberger Observer 2022 (6)

 

 

 

Fan Wang | Engineering | Best Researcher Award

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Dr. Fan Wang | Engineering | Best Researcher Award

Nanjing University of Information Science and Technology | China

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Early Academic Pursuits

Dr. Fan Wang's academic journey commenced with a Bachelor of Science in Mathematics from Hefei Normal University, China. This foundational education laid the groundwork for her subsequent pursuit of higher studies. She then pursued a Master's degree at the School of Mathematics, Southeast University, Nanjing, China, followed by a Doctor of Science degree, further specializing in Mathematics.

Professional Endeavors

Dr. Wang's professional endeavors reflect a global engagement with various esteemed academic institutions. She has held research positions at prominent universities such as the University of Macau, the University of Hong Kong, and Southeast University in China. Additionally, she has enriched her academic experience through international collaborations, serving as a Visiting PhD Student at Brunel University London, UK, and an Alexander von Humboldt Research Fellow at the University of Duisburg-Essen, Germany.

Contributions and Research Focus

Dr. Wang's research primarily focuses on advanced topics in control theory, with a specialization in two-dimensional systems and sensor networks. Her contributions encompass robust control and filtering techniques, distributed filtering over wireless sensor networks, and state estimation for networked systems with incomplete information. Through her publications in esteemed journals and conferences, she has significantly advanced the understanding and application of these techniques in real-world scenarios.

Accolades and Recognition

Dr. Wang's dedication and contributions to the field have been recognized through various awards and honors. Notably, she received the prestigious Alexander von Humboldt Research Fellowship of Germany in 2020 and has been acknowledged as an Excellent Reviewer of Neurocomputing in 2023. Her outstanding contributions to research have consistently earned her recognition from peers and institutions alike.

Impact and Influence

Dr. Wang's research has made a significant impact on the field of control theory and related disciplines. Her work on recursive filtering, robust state estimation, and protocol-based control has contributed to advancing the state-of-the-art in handling complex systems with limited information and communication constraints. Her findings have practical implications across diverse domains, including engineering, automation, and information technology.

Legacy and Future Contributions

Dr. Wang's legacy lies in her pioneering research and dedication to advancing the frontiers of control theory. Her work serves as a foundation for future researchers in the field, offering insights and methodologies that can address emerging challenges in complex system analysis and control. Her commitment to excellence and interdisciplinary collaboration ensures that her contributions will continue to shape the landscape of control theory and its applications in the years to come.

Notable publications

Recursive filtering for two-dimensional systems with amplify-and-forward relays: Handling degraded measurements and dynamic biases 2024

Finite-Horizon H State Estimation for Complex Networks With Uncertain Couplings and Packet Losses: Handling Amplify-and-Forward Relays 2023

Distributed Fusion Filtering for Nonlinear Time-Varying Systems Over Amplify-and-Forward Relay Networks: An H Quantized Framework 2023 (1)

Recursive locally minimum-variance filtering for two-dimensional systems: When dynamic quantization effect meets random sensor failure 2023 (5)

Robust set-membership filtering for two-dimensional systems with sensor saturation under the Round-Robin protocol 2022 (33)

 

 

 

Chao Huang | Engineering | Best Research Award

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Chao Huang | Best Research Award - Award Winner 2023

Chao Huang | Engineering

Congratulations, Chao Huang! Your exceptional dedication to research and relentless pursuit of knowledge have rightfully earned you the esteemed Best Researcher Award. Your work at The Hong Kong Polytechnic University stands as a testament to your unwavering commitment to excellence in academia. Through your groundbreaking contributions and innovative thinking, you've not only pushed the boundaries of knowledge but also inspired your peers and mentees to reach greater heights. This recognition is a testament to your brilliance and the impact your work has made in your field.

Your relentless pursuit of excellence in research has set a remarkable standard, establishing you as a trailblazer in your field. Your innovative approaches and unwavering dedication have not only advanced the frontiers of knowledge at your institution but have also contributed significantly to the broader academic community. This award not only celebrates your remarkable achievements but also serves as a testament to the profound impact you've made in your field and beyond. Keep shining brightly as a beacon of inspiration and knowledge!

Early Academic Pursuits

Chao Huang commenced her academic journey with a Bachelor's degree in Control Engineering from China University of Petroleum (Beijing) in 2012. She then pursued her Master's in Control Engineering at the same institution, graduating in July 2014. Her academic foundation laid the groundwork for her subsequent research and professional endeavors.

Professional Endeavors

Transitioning from academia to impactful research roles, Chao Huang served as a PhD candidate at the University of Wollongong, Australia, from July 2014 to August 2018. Following her doctoral studies, she took on roles in Japan as a technical support professional and a project researcher at the National Institute of Informatics.

Contributions and Research Focus

Throughout her career, Chao Huang has made significant contributions to the field of engineering, particularly in control theory, human-machine collaboration, system modeling, and simulation. Her research spans diverse domains, including robots, decision-making, unmanned aerial vehicles (UAVs), trajectory prediction, risk assessment, and fault-tolerant control systems. Her doctoral thesis on "Fault tolerant Steer-by-Wire systems: Impact on vehicle safety" showcases her commitment to ensuring safety in vehicle technologies.

Short Courses Attended

Details about specific short courses attended by Chao Huang aren't provided in the information available.

Impact and Influence

Chao Huang's work has left a substantial impact on various academic domains, evident from her multiple publications, editorial roles in prestigious journals, and contributions to numerous special issues. Her active participation in conferences and symposiums also underscores her influence in shaping discussions around cutting-edge engineering advancements.

Academic Citations

Her research contributions have garnered significant attention and citations within the academic community, reflected in her profile on Google Scholar, demonstrating the impact of her scholarly work.

Experience

Her diverse experience, ranging from technical support to project research roles across different countries, has enriched her understanding and expertise in engineering and control systems.

Legacy and Future Contributions

Chao Huang's legacy lies in her comprehensive involvement in research, teaching, publication, conference organization, and mentorship. Her future contributions are poised to further revolutionize engineering, especially in the realms of human-machine collaboration, control systems, and the integration of emerging technologies like UAVs and robotics.

This summary provides an overview of Chao Huang's academic and professional journey, highlighting her significant contributions, areas of expertise, and the potential impact of her future endeavors.

Notable Publication

Mobile robots in wireless sensor networks: A survey on tasks  15 January 2019

An Integrated Framework of Decision Making and Motion Planning for Autonomous Vehicles Considering Social Behaviors  25 November 2020

Fault Tolerant Sliding Mode Predictive Control for Uncertain Steer-by-Wire System 17 November 2017

 

 

 

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Tek Gyawali | Engineering | Best Researcher Award

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Tek Gyawali | Best Researcher Award - Award Winner 2023

Tek Gyawali | Engineering

Congratulations, Tek Gyawali, on receiving the prestigious Best Researcher Award! Your unwavering commitment to advancing knowledge and pushing the boundaries of research has rightfully earned you this esteemed recognition. Your dedication to exploring innovative solutions and your relentless pursuit of excellence in academia are truly commendable.

Your contributions to the field of research stand as a testament to your passion and expertise. Your profound insights and impactful discoveries have not only enriched academia but also have the potential to make a lasting difference in the world. Your relentless efforts in unraveling new frontiers in your field have not gone unnoticed, and this award is a testament to your hard work, perseverance, and outstanding achievements. Here's to celebrating your remarkable accomplishments and the groundbreaking contributions you continue to make in the realm of research. Cheers to your success and the inspiration you provide to aspiring researchers worldwide!

Early Academic Pursuits:

Prof. Dr. Tek Raj Gyawali pursued his education across various institutions, demonstrating a strong foundation in Mathematics, Science, and Engineering disciplines. His educational journey began at Gandaki Boarding School in Nepal and continued with proficiency certificate studies at Amrit Science Campus in Kathmandu. Subsequently, he obtained specialized training in Chinese language from the Beijing Language Institute before pursuing Bachelor's, Master's, and Doctoral degrees in Engineering from Tongji University in Shanghai and the University of Tokyo in Japan, respectively.

Professional Endeavors:

Prof. Dr. Gyawali's professional trajectory exhibits a rich blend of research, teaching, and managerial roles. His career commenced as a Research Engineer at Developing and Consulting Services (DCS) in Nepal. This journey expanded to managerial positions at Meada Corporation in Japan, where he served as a Manager and later as the Country Representative for Nepal. He further contributed to academia as a Professor and Faculty Member at various engineering colleges and universities in Nepal, specializing in Civil Engineering.

Contributions and Research Focus:

Throughout his career, Prof. Dr. Gyawali has been actively involved in a diverse array of research initiatives and projects. His research interests encompass multiple facets of concrete technology, continuous mixer development, material engineering, and seismic-resistant construction methodologies. He has contributed significantly to the development of innovative concrete mixing systems, lightweight concrete formulations, mortar technologies, and eco-friendly construction materials.

Short Courses Attended:

Prof. Dr. Gyawali participated in numerous short courses and seminars worldwide, focusing on concrete technology, structural engineering, construction management, and disaster management. These engagements across various countries like Japan, China, the UK, Spain, Poland, and more reflect his dedication to continuous learning and professional development.

Impact and Influence:

His contributions to academia, research, and the engineering field are exemplified through a prolific publication record comprising theses, research papers, seminar proceedings, journal articles, and research reports. Prof. Dr. Gyawali's work has notably focused on improving concrete mixing techniques, developing innovative construction materials, and advancing seismic-resistant technologies.

Academic Cites:

His academic endeavors include guiding students' research projects, teaching various engineering subjects, supervising master's theses, and contributing to curriculum development. Additionally, he has served as a committee member for academic program planning, curriculum design, and research proposal evaluations.

Experience:

Prof. Dr. Gyawali's extensive experience spans structural analysis, material science, concrete technology, and disaster management. He's been involved in consulting, technical advisory roles, project management, and research collaborations in notable projects such as the Three Gorges Project in China and various academic collaborations in Japan, the UK, and other countries.

Legacy and Future Contributions:

Prof. Dr. Gyawali's legacy lies in his multifaceted contributions to academia, innovative research in concrete technology, seismic-resistant construction methodologies, and his commitment to educating future engineers. His work continues to inspire advancements in the field of civil engineering, and he remains dedicated to fostering sustainable, eco-friendly construction practices for the future.

Notable Publication

Use of high ductile mortar mixing method for the enhancement of flexural fracture behaviour of steel filler mortar  2 June 2023

Effect of the mixing procedure on the properties of lightweight EPS mortar  1 June 2023,

Effect of sand types and mixing procedures on the flexural behaviour of the high ductile mortar in monotonic and cyclic loadings   3 March 2023

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