Associate Professor at Dalian University of Technology, China
Feiyue Wu is an accomplished academic and researcher with significant contributions to control theory and engineering. Currently serving as an Associate Professor at Dalian University of Technology, China, his work primarily focuses on the constrained control of switched systems and control allocation. His innovative research has garnered attention in the academic community and industry, demonstrated by his publications in SCI-indexed journals and his involvement in industry-sponsored projects. Wu’s research is aimed at overcoming challenges such as the conservatism of ellipsoidal methods and the high computational complexity of polyhedral design methods in controlling saturated systems. Through his work, Wu has introduced a simpler yet more efficient control method using semi-ellipsoidal invariant sets. He holds a Ph.D. in Control Theory and Control Engineering, and his academic career is marked by numerous achievements, including national patents and prestigious collaborations. Wu is a member of IEEE and has been recognized for his dedication to advancing the field of control systems.
Professional Profile
Education:
Feiyue Wu completed his Ph.D. in Control Theory and Control Engineering from Dalian University of Technology, China, in 2021. His advanced education in control systems has provided him with a strong foundation in both theoretical and applied aspects of the discipline. Throughout his academic journey, Wu developed a deep understanding of control theory, system dynamics, and optimization techniques. His expertise in control engineering is enhanced by his ability to innovate within his field, offering solutions to real-world problems, such as the challenges faced by switched systems. His educational background laid the groundwork for his subsequent academic and professional accomplishments.
Professional Experience:
Currently an Associate Professor at the School of Control Science and Engineering at Dalian University of Technology, Feiyue Wu has a track record of leading impactful research projects. His role involves conducting advanced research on control systems while mentoring students and contributing to the development of the academic community. Wu has led five major research projects, including a National Natural Science Foundation of China Youth Project and a China Postdoctoral Science Foundation project. His industry experience includes involvement in four industry-sponsored projects, bridging the gap between academic research and industrial application. Wu’s extensive professional experience has shaped him into a respected researcher with practical insights into the engineering field.
Research Interests:
Feiyue Wu’s primary research interests lie in control systems, with a particular focus on the constrained control of switched systems and control allocation. His work addresses complex challenges in systems that involve saturation, proposing innovative solutions to improve control performance. One notable aspect of his research is the development of a semi-ellipsoidal invariant set-based control method, which addresses limitations of traditional methods such as excessive conservatism and computational complexity. This approach significantly improves the attraction domain and efficiency, offering practical benefits for real-time control systems. Wu’s research contributes to the development of more efficient, scalable, and computationally viable control strategies for modern engineering systems.
Research Skills:
Feiyue Wu is skilled in various research methodologies related to control theory and engineering. His expertise includes system modeling, optimization, and the design of control algorithms for complex systems. Wu is particularly proficient in developing computationally efficient methods for controlling switched systems, overcoming challenges such as saturation and nonlinearities. He has demonstrated his ability to innovate through the development of the semi-ellipsoidal invariant set method, a novel approach to improve the robustness and performance of control systems. Wu’s research skills are further demonstrated by his active involvement in industry collaborations, applying his theoretical knowledge to real-world engineering problems. His ability to integrate computational techniques with control theory has positioned him as a forward-thinking researcher in his field.
Awards and Honors:
Feiyue Wu has earned recognition for his outstanding contributions to the field of control engineering. He has been granted three national invention patents, reflecting the innovative outcomes of his research. In addition to his patents, Wu has published 18 articles in SCI-indexed journals, marking his work as impactful within the academic community. He has also led several prestigious research projects, such as the National Natural Science Foundation of China Youth Project, further underscoring his status as a leading researcher. As a member of IEEE, Wu is well-regarded in both academic and professional circles, and his research is respected for its innovation and practical applications in the control systems domain.
Conclusion:
Feiyue Wu is a highly accomplished researcher whose work in control systems and engineering has made a significant impact in both academia and industry. His innovative contributions, such as the semi-ellipsoidal invariant set-based control method, demonstrate his ability to address complex challenges in modern engineering. Wu’s impressive academic background, coupled with his leadership in research projects and industry collaborations, has established him as a respected expert in his field. His patents and publications further illustrate the importance and relevance of his work. With a commitment to advancing control systems, Wu is well-positioned to continue making valuable contributions to the field. He is a deserving candidate for recognition, particularly for his innovative approaches to control system design.
Publication Top Notes
- Title: Stabilization of Switched Linear Systems Subject to Actuator Saturation via Invariant Semi-ellipsoids
- Authors: J. Lian, F. Wu
- Journal: IEEE Transactions on Automatic Control
- Volume: 65 (10)
- Pages: 4332-4339
- Citations: 35
- Year: 2020
- Title: Bumpless transfer control for switched systems via a dynamic feedback and a bump-dependent switching law
- Authors: F. Wu, D. Wang, J. Lian
- Journal: IEEE Transactions on Cybernetics
- Volume: 53 (8)
- Pages: 5372-5379
- Citations: 24
- Year: 2022
- Title: A parametric multiple Lyapunov equations approach to switched systems with actuator saturation
- Authors: F. Wu, J. Lian
- Journal: Nonlinear Analysis: Hybrid Systems
- Volume: 29
- Pages: 121-132
- Citations: 16
- Year: 2018
- Title: Stabilization of constrained switched systems via multiple Lyapunov R-functions
- Authors: F. Wu, J. Lian
- Journal: Systems & Control Letters
- Volume: 139
- Page: 104686
- Citations: 12
- Year: 2020
- Title: Observer-Based asynchronous control for stochastic nonhomogeneous semi-Markov jump systems
- Authors: D. Wang, F. Wu, J. Lian, S. Li
- Journal: IEEE Transactions on Automatic Control
- Citations: 11
- Year: 2023
- Title: Multi-rate sampled-data control of switched affine systems
- Authors: F. Wu, X. Qu, C. Li, J. Lian, L. Xu
- Journal: IET Control Theory & Applications
- Volume: 14 (11)
- Pages: 1524-1530
- Citations: 11
- Year: 2020
- Title: Stabilization for constrained switched positive linear systems via polyhedral copositive Lyapunov functions
- Authors: F. Wu, J. Lian, D. Wang
- Journal: Information Sciences
- Volume: 602
- Pages: 75-85
- Citations: 9
- Year: 2022
- Title: Finite-time stability of switched nonlinear systems with state jumps: A dwell-time method
- Authors: F. Wu, C. Li, J. Lian
- Journal: IEEE Transactions on Systems, Man, and Cybernetics: Systems
- Volume: 52 (10)
- Pages: 6061-6072
- Citations: 8
- Year: 2021
- Title: Prescribed Performance Bumpless Transfer Control for Switched Large-Scale Nonlinear Systems
- Authors: F. Wu, J. Lian, D. Wang, G. Zhai
- Journal: IEEE Transactions on Systems, Man, and Cybernetics: Systems
- Volume: 53 (8)
- Pages: 5139-5148
- Citations: 7
- Year: 2023
- Title: A Stackelberg game approach to the stability of networked switched systems under DoS attacks
- Authors: J. Lian, P. Jia, F. Wu, X. Huang
- Journal: IEEE Transactions on Network Science and Engineering
- Volume: 10 (4)
- Pages: 2086-2097
- Citations: 7
- Year: 2023