Chun Liu | Engineering | Best Researcher Award

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Prof. Chun Liu | Engineering | Best Researcher Award

Professor, Shanghai University, China

🌟 Chun Liu is an accomplished Associate Professor at Shanghai University, China, specializing in control theory, fault diagnosis, and multi-agent systems. With a robust academic foundation and a series of significant research contributions, Chun Liu is recognized for his innovative approaches to fault-tolerant control, cybersecurity, and cooperative control in complex systems. He has earned prestigious awards for his research excellence and has made impactful contributions through numerous publications in international journals.

Publication Profile

Scopus

Strengths for the Award:

  1. Extensive Research Experience and Expertise: Chun Liu is an Associate Professor with significant experience in Control Science and Engineering, specializing in areas such as fault diagnosis, fault-tolerant control, distributed control, and cybersecurity in cyber-physical systems. This expertise aligns well with emerging fields in Artificial Intelligence and Control Systems.
  2. Impressive Research Output: Liu has an extensive list of high-quality publications in prestigious journals, such as IEEE Transactions and the International Journal of Robust and Nonlinear Control. His research focuses on innovative and practical applications, like multi-agent systems, UAVs, and unmanned surface vehicles, which are highly relevant in today’s technological landscape.
  3. Leadership in Research Projects: Liu has been the principal investigator in several notable research projects funded by respected institutions, such as the National Natural Science Foundation of China and the Shanghai Young Talents Sailing Program. This demonstrates his ability to lead complex, high-impact research initiatives.
  4. Recognition and Awards: Liu has received multiple awards and nominations, such as the Outstanding Ph.D. Thesis Award from the Chinese Association of Automation and best paper nominations at international conferences. These accolades highlight his recognition by the scientific community for his contributions to the field.
  5. International Exposure and Collaboration: His experience as a visiting scholar at the University of Hull in the U.K. adds to his international profile and emphasizes his ability to collaborate across borders, which is an important trait for a global researcher.

Areas for Improvement:

  1. Broader Impact and Interdisciplinary Work: While Liu’s work is technically sound and specialized in Control Science and Engineering, expanding the scope of his research to intersect with other fields, such as healthcare, environmental science, or social sciences, could increase its societal impact and relevance.
  2. Greater Emphasis on Application-Oriented Projects: Liu could focus more on application-driven research projects that address pressing global challenges, such as climate change or sustainable development. This would enhance the practical impact of his work beyond academia.
  3. Engagement in Policy and Industry: Increasing involvement in industry partnerships and policy-making can further bridge the gap between academia and real-world application. Collaboration with industries or contributing to policy development in his areas of expertise could amplify his influence.

 

Education

🎓 Chun Liu received his Ph.D. and Master’s degrees in Control Theory and Control Engineering from Nanjing University of Aeronautics and Astronautics, China, from 2013 to 2020. He also holds a Bachelor’s degree in Automation from the same university, completed in 2013. His education laid a strong foundation for his expertise in distributed control, security, and fault-tolerant systems.

Experience

💼 Currently an Associate Professor at Shanghai University since April 2023, Chun Liu has previously served as an Assistant Professor at the same institution from May 2020 to March 2023. He was also a Visiting Scholar at the University of Hull, UK, from October 2017 to October 2018. His diverse experience spans teaching, research, and collaborative international engagements.

Research Focus

🔍 Chun Liu’s research primarily focuses on fault diagnosis and fault-tolerant control, distributed control of multi-agent systems, security control in cyber-physical systems, and cluster cooperation and game confrontation. His innovative work aims to enhance the reliability and security of control systems in complex environments, contributing significantly to advancements in control engineering and automation.

Awards and Honours

🏅 Chun Liu has been recognized for his outstanding contributions, including the Outstanding Ph.D. Thesis Award by the Chinese Association of Automation (2021) and nominations for the Outstanding Youth Paper Award at the Chinese Control and Decision Conference (2024) and the Best Paper Nomination at the International Conference on Robotics, Control, and Automation Engineering (2023).

Publication Top Notes with Hyperlinks

Extended state observer-based fault-tolerant control for an unmanned surface vehicle under asynchronous injection and deception attacks, Complex Engineering Systems, 2024.

Obstacle-avoidance distributed reinforcement learning optimal control for spacecraft cluster flight, IEEE Transactions on Aerospace and Electronic Systems, 2024.

Cooperative advantage actor-critic reinforcement learning for multi-agent pursuit-evasion games on communication graphs, IEEE Transactions on Artificial Intelligence, 2024.

A generalized testing model for interval lifetime analysis based on mixed Wiener accelerated degradation process, IEEE Internet of Things Journal, 2024.

Event-triggered asynchronous distributed MPC for multi-quadrotor systems with communication delays, International Journal of Robust and Nonlinear Control, 2024.

 

Conclusion:

Chun Liu is a strong candidate for the “Best Researcher Award” due to his notable contributions to control science, engineering, and artificial intelligence. His extensive publication record, leadership in major research projects, and recognized excellence by multiple awards position him well for this honor. However, to further strengthen his candidacy, Liu might benefit from expanding the scope of his research to more interdisciplinary and application-oriented work, and increasing engagement with industry and policy-makers.

Paul Takyi-Aninakwa | Control Science and Engineering | Young Scientist Award

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Mr. Paul Takyi-Aninakwa | Control Science and Engineering | Young Scientist Award

Ph.D., Southwest University of Science and Technology, China

Mr. Paul Takyi-Aninakwa is a recipient of the Young Scientist Award for his outstanding contributions to the field of Control Science and Engineering. He earned his Ph.D. from Southwest University of Science and Technology in China, where his research focused on innovative approaches to control systems. 🏆 With a dedication to pushing the boundaries of knowledge and a commitment to excellence, Mr. Takyi-Aninakwa has demonstrated remarkable expertise and promise in his field. His work showcases a blend of academic rigor and practical applications, positioning him as a rising star in the scientific community.

Profile

Orcid

Research Interests

Diving into the forefront of technological innovation, the research of state-of-the-art lithium-ion batteries and their state parameter estimations for battery-powered devices and vehicles represents a critical frontier in sustainable energy solutions. 🔋 With a focus on enhancing efficiency and performance, this research delves into the intricate mechanics and materials that underpin friction, exploring areas such as sliding friction, supersonic sliding, and surface texturing. By unraveling the complexities of friction reduction, scientists aim to unlock new possibilities for improving the lifespan and functionality of battery-powered systems. This interdisciplinary approach promises to drive advancements in both energy storage and transportation sectors, shaping a greener future.

Education

Paul Takyi-Aninakwa’s academic journey spans continents, reflecting a pursuit of excellence in engineering across diverse landscapes. 🎓 He earned his Ph.D. in Control Science and Engineering from Southwest University of Science and Technology in Mianyang, Sichuan Province, China. During this time, he contributed to the New Energy Measurement and Control Laboratory within the School of Information Engineering. Prior to his doctoral studies, he completed his MSc in Mechanical Engineering at the same university, further enriching his expertise. 📚 Before venturing abroad, he obtained his B.Sc. in Mechanical Engineering from Kwame Nkrumah University of Science and Technology in Kumasi, Ashanti Region, Ghana, laying the foundation for his future achievements.

Work Experience

Paul Takyi-Aninakwa’s professional journey intertwines a blend of academic pursuits and practical experiences across continents, reflecting his multifaceted expertise and dedication to innovation. 🌍 As a research and innovation team member and African Community Team Leader at the Co-creation and Innovation Center of Southwest University of Science and Technology in China, he spearheads collaborative initiatives driving technological advancements. Previously, he served as Operations/Maintenance Manager at Logistics Masters Limited in Takoradi, Ghana, overseeing the rental and hiring of heavy-duty equipment for construction projects. His tenure at Japan Motors Trading Company Limited and Ghana Highway Authority further honed his skills in mechanical and maintenance operations, showcasing a diverse skill set poised for impactful contributions.

Research Direction

Paul Takyi-Aninakwa’s academic trajectory reflects a journey marked by rigorous exploration and innovation in engineering disciplines. 📚 As a doctoral student at the New Energy Measurement and Control Laboratory within the School of Information Engineering at Southwest University of Science and Technology in China, his research is dedicated to pioneering new methods for energy measurement and control, specifically targeting the development of efficient battery management systems for lithium-ion batteries in electro-mobility. 🚗 His master’s studies delved into the realm of supersonic sliding friction, utilizing advanced numerical software to simulate and analyze friction phenomena, culminating in the proposal of novel surface texture topographies for friction reduction. 🔄 During his undergraduate tenure at Kwame Nkrumah University of Science and Technology in Ghana, he cultivated a solid foundation in mechanical engineering principles, laying the groundwork for his future innovations.

Publications Top Notes

Title: An optimized long short-term memory-weighted fading extended Kalman filtering model with wide temperature adaptation for the state of charge estimation of lithium-ion batteries. Year: 2022 Link: Applied Energy 326 (2022) 120043 Authors: Paul Takyi-Aninakwa, Shunli Wang*, Hongying Zhang, Carlos Fernandez, Xiaoyong Yang

Title: An optimized relevant long short-term memory-squared gain extended Kalman filter for the state of charge estimation of lithium-ion batteries. Year: 2022 Link: Energy 260 (2022) 125093 Authors: Paul Takyi-Aninakwa, Shunli Wang*, Hongying Zhang, Huan Li, Wenhua Xu, Carlos Fernandez

Title: A hybrid probabilistic correction model for the state of charge estimation of lithium-ion batteries considering dynamic currents and temperatures. Year: 2023 Link: Energy 273 (2023) 127231 Authors: Paul Takyi-Aninakwa*, Shunli Wang, Hongying Zhang, Yang Xiao, Carlos Fernandez

Title: An enhanced lithium-ion battery state-of-charge estimation method using long short-term memory with an adaptive state update filter incorporating battery parameters. Year: 2024 Link: Engineering Applications of Artificial Intelligence 132 (2024) 107946 Authors: Paul Takyi-Aninakwa*, Shunli Wang, Hongying Zhang, Alhamdu Nuhu Bage, Faisal Masahudu, Josep M. Guerrero

Title: Enhanced multi-state estimation methods for lithium-ion batteries considering temperature uncertainties. Year: 2023 Link: Journal of Energy Storage 66 (2023) 107495 Authors: Paul Takyi-Aninakwa*, Shunli Wang, Hongying Zhang, Yang Xiao, Carlos Fernandez

Title: A NARX network optimized with an adaptive weighted square-root cubature Kalman filter for the dynamic state of charge estimation of lithium-ion batteries. Year: 2023 Link: Journal of Energy Storage 68 (2023) 107728 Authors: Paul Takyi-Aninakwa*, Shunli Wang, Hongying Zhang, Yang Xiao, Carlos Fernandez

Title: An ASTSEKF optimizer with nonlinear condition adaptability for the state of charge estimation of lithium-ion batteries. Year: 2023 Link: Journal of Energy Storage 70 (2023) 108098 Authors: Paul Takyi-Aninakwa*, Shunli Wang, Hongying Zhang, Yang Xiao, Carlos Fernandez

 

Miao He | Petroleum Engineering | Best Researcher Award

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Assoc Prof Dr. Miao He | Petroleum Engineering | Best Researcher Award

Associate Professor, Doctoral Supervisor, Yangtze University, China

🏆 Assoc Prof Dr. Miao He, an esteemed figure in the field of Petroleum Engineering, has been honored with the prestigious Best Researcher Award for their outstanding contributions. Serving as an Associate Professor and Doctoral Supervisor at Yangtze University in China, Dr. He exemplifies excellence in academia and research. Their dedication to advancing knowledge and innovation in petroleum engineering has earned them recognition and respect within the academic community. Through their leadership and expertise, Dr. He continues to inspire future generations of researchers and engineers, shaping the landscape of petroleum engineering for years to come. 🛢️📚

Profile 

Scopus

Research Projects

🔬 He Miao is leading several significant research projects, including the Youth Fund of the National Natural Science Foundation of China, projects with CNPC, CNOOC, Sinopec, and various academic institutions. These projects cover areas such as deepwater drilling, wellbore stability, drilling fluid technology, and more.

Academic Papers

📚 He Miao has authored and co-authored over 40 academic papers published in reputable journals such as Thermal Science and Engineering Progress, Ocean Engineering, and Physics of Fluids. His research contributions encompass topics ranging from coupled modeling of wellbore temperature and stress fields to the development of advanced drilling fluid systems.

Patents and Software

💡 He Miao has contributed to several patented inventions and software developments related to drilling engineering and wellbore management. These innovations include interpretation methods, simulation software, and testing devices aimed at improving drilling efficiency and safety.

Academic and Social Part-time

He Miao actively participates in academic and social activities, serving as a member of the Wuhan Youth Federation and a reviewer for the National Natural Science Foundation. He is also a member of professional organizations such as the Society of Petroleum Engineers (SPE) and contributes as a reviewer for various scientific journals. Additionally, he is involved in collaborative innovation efforts in the field of unconventional oil and gas.

Publications Top Notes

An updated numerical model of fracture fluid loss coupled with wellbore flow in managed pressure drilling
Year: 2023
Citation: Physics of Fluids, 35(5), 053110
Authors: Lin, D., He, M., Xu, M., Zhou, C., Chen, X.

Fully transient coupled prediction model of wellbore temperature and pressure for multi-phase flow during underbalanced drilling
Year: 2023
Citation: Geoenergy Science and Engineering, 223, 211540
Authors: Chen, X., He, M., Xu, M., Zhou, C.

Investigation of pressure wave propagation and attenuation characteristics in managed pressure drilling by fast switching throttle valve
Year: 2023
Citation: Physics of Fluids, 35(1), 014115
Authors: Zhou, C., He, M., Xu, M., Lin, D., Chen, X.

Enhanced stability of low oil-to-water ratio water-in-oil emulsions (oil-based drilling fluids): Synergistic effect of nano-SiO2 and emulsifiers
Year: 2022
Citation: Journal of Petroleum Science and Engineering, 219, 111053
Authors: Pu, L., Xu, P., Xu, M., He, M., Wei, M.

Inversion-based model for quantitative interpretation by a dual-measurement points in managed pressure drilling
Year: 2022
Citation: Process Safety and Environmental Protection, 165, pp. 969–976
Authors: He, M., Chen, X., Xu, M., Chen, H.

Lost circulation materials for deep and ultra-deep wells: A review
Year: 2022
Citation: Journal of Petroleum Science and Engineering, 214, 110404
Authors: Pu, L., Xu, P., Xu, M., Song, J., He, M.