Jing-Li Fu | Robotics | Best Research Article Award

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Prof. Dr. Jing-Li Fu | Robotics | Best Research Article Award

Prof. Dr. Jing-Li Fu | Shandong Vocational University of Foreign Affairs, Zhejiang Sdi-Tech University |  China 

Prof. Dr. Fu Jingli is a distinguished scholar in mathematics and applied mechanics, currently serving as a second-level professor and doctoral supervisor at Zhejiang University of Technology. With a prolific academic career, he has authored over 150 research papers, with more than 100 indexed by SCI and over 70 by EI. His work has been cited over 1,000 times in SCI journals. He is known for advancing the theory of symmetries in dynamical systems. His contributions span theoretical innovation and practical applications, establishing him as a prominent figure in China’s scientific and educational landscape.

Profile

Scopus
Orcid 

Education

Prof. Dr. Fu Jingli earned his Ph.D. in a technical field and currently serves as a second-level professor and doctoral supervisor at Zhejiang University of Technology. His academic journey has been marked by rigorous scientific training and specialization in mechanics and dynamical systems. With deep expertise developed through advanced research and mentoring, he has cultivated a strong academic foundation. His education laid the groundwork for hosting several national-level projects and producing highly cited publications. Prof. Fu’s scholarly background reflects a commitment to excellence, both in teaching and research, and has significantly shaped his contributions to science and engineering.

Prof. Dr. Fu Jingli is a senior academic with extensive experience in research, teaching, and supervision. As a second-level professor at Zhejiang University of Technology, he has led five projects funded by the National Natural Science Foundation of China. With a strong research record and mentoring history, he has guided numerous postgraduate and doctoral students. He contributed to both theoretical research and curriculum innovation. His experience also includes collaboration with national educational and scientific bodies, significantly advancing the field of dynamical systems and mathematical modeling. His expertise is reflected in national and provincial awards and a substantial publication record.

Research Focus

Prof. Fu Jingli’s research focuses on Noether symmetries, conserved quantities in nonconservative dynamical systems, and geometric mechanics. His influential 2003 paper in Physics Letters A, co-authored with Li-Qun Chen, has been cited over 50 times, showcasing its impact in theoretical physics. He explores differential equations, variational principles, and symmetry-based analytical mechanics. His work aids in understanding physical systems lacking traditional conservation laws. Through mathematical modeling and theoretical analysis, his contributions bridge pure mathematics with applied science, supporting advances in physics, engineering, and control systems. His research significantly shapes developments in symmetry methods and integrability in modern dynamics.

Awards and Honors

Prof. Fu Jingli has received multiple prestigious honors for his contributions to science and education. He earned a second prize (first place) in the Zhejiang Provincial Science and Technology Award and a second prize in the Natural Science Award from the Ministry of Education (second place). He also received a second prize in the Shanghai Science and Technology Progress Award (second place). In the field of education, he won a first prize in provincial teaching achievements (first place). These accolades reflect his dual excellence in research and pedagogy, marking him as a key contributor to China’s scientific and academic progress.

 Publications Top Notes

Title: Basic Principles of Deformed Objects with Methods of Analytical Mechanics
Journal: Journal of Nonlinear Mathematical Physics
Year: 2024
Citations: 1
Authors: Fu Jingli, others not specified

Title: Lie Symmetries and Conserved Quantities of Static Bertotti–Robinson Spacetime
Journal: Chinese Journal of Physics
Year: 2024
Citations: 2
Authors: Fu Jingli, others not specified

Title: Dynamics Analysis of a Nonlinear Controlled Predator–Prey Model with Complex Poincaré Map
Journal: Nonlinear Analysis: Modelling and Control
Year: 2024
Citations: 1
Authors: Fu Jingli, others not specified

Title: Fractional Hamilton’s Canonical Equations and Poisson Theorem of Mechanical Systems with Fractional Factor
Journal: Mathematics
Year: 2023
Citations: 1
Authors: Fu Jingli, others not specified

Title: Dynamic Analysis of a Phytoplankton-Fish Model with the Impulsive Feedback Control Depending on the Fish Density and Its Changing Rate
Journal: Mathematical Biosciences and Engineering
Year: 2023
Citations: 2
Authors: Fu Jingli, others not specified

Title: Lie Group Analysis Method for Wall Climbing Robot Systems
Journal: Indian Journal of Physics
Year: 2022
Citations: 4
Authors: Fu Jingli, others not specified

Title: Noether Symmetries and Conserved Quantities of Wall Climbing Robot System
Journal: Lixue Xuebao (Chinese Journal of Theoretical and Applied Mechanics)
Year: 2022
Citations: 6
Authors: Fu Jingli, others not specified

Title: A Symplectic Algorithm for Constrained Hamiltonian Systems
Journal: Axioms
Year: 2022
Citations: 4
Authors: Fu Jingli, others not specified

Title: Sensitivity Analysis of Pesticide Dose on Predator-Prey System with a Prey Refuge
Journal: Journal of Applied Analysis and Computation
Year: 2022
Citations: 4
Authors: Fu Jingli, others not specified

Title: On Noether Symmetries and Conserved Quantities of Nonconservative Dynamical Systems
Journal: Physics Letters A
Year: 2003
Citations: 50+
Authors: Jing-Li Fu, Li-Qun Chen

Conclusion

Prof. Dr. Fu Jingli exemplifies academic excellence through his profound research, impactful teaching, and national-level recognition. With over 150 publications and significant citations, his theoretical advancements in dynamical systems have influenced both academia and practical applications. His awards and leadership in major national research projects further reinforce his stature as a scholar of distinction. Through his role as a doctoral supervisor and educator, he continues to nurture the next generation of researchers. His sustained contributions to mathematics and engineering position him as a deserving candidate for honors like the Best Researcher Award.

Shuang Shi | Automation | Best Researcher Award

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Assoc. Prof. Dr. Shuang Shi | Automation | Best Researcher Award

Assoc. Prof. Dr. Shuang Shi, Nanjing University of Aeronautics and Astronautics, China.

Dr. Shuang Shi is an Associate Professor at the School of Automation Engineering, Nanjing University of Aeronautics and Astronautics. He earned his B.S. and Ph.D. in Control Science and Engineering from Harbin Institute of Technology in 2015 and 2020, respectively. His research focuses on switched system theories and advanced flight control, contributing to adaptive tracking control for unmanned helicopters and formation tracking for multi-UAV systems. He has published 29 SCI/Scopus-indexed journals, 2 books, and 7 patents, with a citation index of 851 (SCI).

Professional Profile

🎓 Education

Dr. Shuang Shi obtained his Bachelor of Science (B.S.) and Doctor of Philosophy (Ph.D.) degrees in Control Science and Engineering from Harbin Institute of Technology in 2015 and 2020, respectively. His academic journey was marked by rigorous research in switched system theories and advanced flight control. During his doctoral studies, he focused on developing adaptive tracking control strategies for unmanned helicopters and formation tracking control for multi-UAV systems. His strong foundation in control engineering has significantly contributed to his expertise in automation and aerospace systems.

🔬Research Contributions On Automation 

Dr. Shuang Shi has made significant contributions to the field of switched system theories and advanced flight control. His research focuses on developing innovative analysis and synthesis techniques for complex switched systems. He has designed adaptive tracking control strategies for unmanned helicopters with multiple constraints and novel time-varying formation tracking control strategies for multi-UAV systems with switching topologies. His work has led to improved stability and performance in autonomous flight systems, making a substantial impact in aerospace control engineering.

💼Professional Background

Dr. Shuang Shi is an Associate Professor at the School of Automation Engineering, Nanjing University of Aeronautics and Astronautics. He earned his B.S. and Ph.D. degrees in Control Science and Engineering from Harbin Institute of Technology in 2015 and 2020, respectively. His research focuses on switched system theories and advanced flight control. He has contributed significantly to adaptive tracking control strategies for unmanned helicopters and formation tracking control for multi-UAV systems. His work has led to multiple patents, publications, and industry collaborations.

🚀 Contributions to Science and Technology

Dr. Shuang Shi specializes in switched system theories, enhancing analysis and synthesis techniques for complex switched systems. His recent research focuses on advanced flight control, applying switched system theories to design adaptive tracking control strategies for unmanned helicopters with multiple constraints. Additionally, he has developed innovative time-varying formation tracking control strategies for multi-UAV systems with switching topologies.

🏅 Awards & Honors

Dr. Shuang Shi has made significant contributions to the fields of advanced flight control and switched systems, earning widespread recognition for his research. With 851 SCI citations, 29 published journal articles, and 7 patents, his work has advanced UAV control strategies and adaptive tracking systems. His research has been instrumental in shaping modern aerospace automation. Honored with multiple awards, he continues to push the boundaries of flight control engineering, leaving a lasting academic and industrial impact.

Conclusion

Assoc. Prof. Dr. Shuang Shi’s remarkable contributions to the fields of advanced flight control and switched systems, along with his extensive research output and innovations, make him an exceptional candidate for the Best Researcher Award. His work continues to have a global impact, demonstrating both academic excellence and practical significance, making him a deserving recipient of this prestigious recognition.

📚Publication Top Notes

Quasi-time-dependent output control for discrete-time switched system with mode-dependent average dwell time

Citations: 144 📈

Year: 2017

Journal: IEEE Transactions on Automatic Control

Asynchronous control for 2-D switched systems with mode-dependent average dwell time

Citations: 135 📈

Year: 2017

Journal: Automatica

Filtering for switched T–S fuzzy systems with persistent dwell time

Citations: 117 📈

Year: 2018

Journal: IEEE Transactions on Cybernetics

Improved stability criteria for discrete-time switched T–S fuzzy systems

Citations: 80 📈

Year: 2018

Journal: IEEE Transactions on Systems, Man, and Cybernetics: Systems

Asynchronous filtering for discrete-time switched T–S fuzzy systems

Citations: 69 📈

Year: 2019

Journal: IEEE Transactions on Fuzzy Systems

Stabilization of 2-D switched systems with all modes unstable via switching signal regulation

Citations: 63 📈

Year: 2017

Journal: IEEE Transactions on Automatic Control

Event-triggered control for switched T–S fuzzy systems with general asynchronism

Citations: 62 📈

Year: 2020

Journal: IEEE Transactions on Fuzzy Systems

Asynchronous control for switched systems by using persistent dwell time modeling

Citations: 62 📈

Year: 2019

Journal: Systems & Control Letters

Finite-time control for switched T–S fuzzy systems via a dynamic event-triggered mechanism

Citations: 60 📈

Year: 2020

Journal: IEEE Transactions on Fuzzy Systems

Finite-time H∞ control of switched systems with mode-dependent average dwell time

Citations: 60 📈

Year: 2016

Journal: Journal of the Franklin Institute

Finite-time output feedback control for discrete-time switched linear systems with mode-dependent persistent dwell-time

Citations: 31 📈

Year: 2018

Journal: Journal of the Franklin Institute

Quasi-time-dependent control for 2-D switched systems with actuator saturation

Citations: 29 📈

Year: 2017

Journal: Information Sciences

Asynchronously bounded filtering for discrete-time switched positive systems

Citations: 19 📈

Year: 2022

Journal: Nonlinear Analysis: Hybrid Systems

Stability and stabilization for discrete-time switched systems with asynchronism

Citations: 15 📈

Year: 2018

Journal: Applied Mathematics and Computation

Finite-time control of switched systems under asynchronism based on quantized sampled-data

Citations: 11 📈

Year: 2020

Journal: Journal of the Franklin Institute

Analysis and synthesis for discrete-time switched systems

Citations: 10 📈

Year: 2020

Publisher: Springer International Publishing

Output reachable set estimation for discrete-time switched systems with persistent dwell-time

Citations: 10 📈

Year: 2019

Journal: Journal of the Franklin Institute

Dynamic Event-Triggered Consensus Cost-Based Switching Control for UAV Formation With Disturbances

Citations: 9 📈

Year: 2023

Journal: IEEE Transactions on Intelligent Vehicles

Time-scheduled observer design for switched linear systems with unknown inputs

Citations: 7 📈

Year: 2022

Journal: Science China Information Sciences

Asynchronous filtering for 2-D switched systems with missing measurements

Citations: 6 📈

Year: 2019

Journal: Multidimensional Systems and Signal Processing

Switching modeling and bumpless transfer tracking control for the conversion mode of tilt-rotor aircraft

Citations: 4 📈

Year: 2023

Journal: Transactions of the Institute of Measurement and Control

Almost output regulation for turbofan switched systems under multi‐source disturbances and time delay

Citations: 2 📈

Year: 2024

Journal: International Journal of Robust and Nonlinear Control

Smooth tracking control for conversion mode of a tilt-rotor aircraft with switching modeling

Citations: 1 📈

Year: 2024

Journal: Frontiers of Information Technology & Electronic Engineering