»Full Name:SHI Xiang | »Affiliation:College of Control Science and Engineering |
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» Academic degree:Doctor | » Title:Dr. | |
» Major:Vibration Control | » Tutor category:Master | |
»E-mail:sx@upc.edu.cn | ||
» Tel:15726235866 | ||
◎Research Areas Vibration control, negative stiffness, inerter, active control, control algorithm optimization
◎Education 2007.9 – 2011.8 Hong Kong Polytechnic University, Bachelor 2011.9 – 2017.1 Hong Kong Polytechnic University,doctor of philosophy
◎Employment 2017.2 – 2018.1 Hong Kong Polytechnic University, Post-doc 2018.2 – present, China University of Petroleum (East China), Associate professor
◎Courses Offered Principle of Sensors, Test Signal Analysis and Processing, Non-destructive Detecting Technology
◎Guiding graduate students ZHAO Fulei, GUAN Xiu, WU Zhiwei, YU qingyang, WANG Jingyang, WEI Xiaolin, MA Junchi. SHI Wei (graduated)
◎Funding and Projects Active Vibration Control of Stay Cable Using Low-Energy Consumption Actuation System Based on Inverse Potential Energy Cycle of Negative Stiffness. Project supported by the National Natural Science Foundation of China (Grant No. 52008394)
The Multi-Mode Vibration Control of Stay Cable Based on Negative Stiffness. Project supported by the Natural Science Foundation of Shandong Province (Grant No. ZR2019BEE054)
◎Awards & Honors First award of the HK polyU student chapter of CIB best dissertation competition 2017 Non-local Students Scholarship(Academic), The Hong Kong Polytechnic University, 2007-2011
◎Representative Publications 1. Shi X, Zhu S* (2015). Magnetic negative stiffness dampers. Smart Materials and Structures, 24(7), 072002. IF = 3.543. 2. Shi X, Zhu S* (2017). Simulation and optimization of magnetic negative stiffness dampers. Sensors and Actuators A: Physical, 259, 14-33. IF = 2.739. 3. Shi X, Zhu S*, Li J Y, Spencer Jr B F (2016). Dynamic behavior of stay cables with passive negative stiffness dampers. Smart Materials and Structures, 25(7), 075044. IF = 3.543. 4. Shi X, Zhu S*, Spencer Jr B F (2017). Experimental study on passive negative stiffness damper for cable vibration mitigation. Journal of Engineering Mechanics, 143(9), 04017070. IF = 2.264. 5. Shi X, Zhu S*, Nagarajaiah S (2017). Performance comparison between passive negative-stiffness dampers and active control in cable vibration mitigation. Journal of Bridge Engineering, 22(9), 04017054. IF = 1.84. 6. Shi X, Zhu S* (2018). Dynamic characteristics of stay cables with inerter dampers. Journal of Sound and Vibration, 423, 287-305. IF = 3.123. 7. Shi X, Zhu S* (2019). A comparative study of vibration isolation performance using negative stiffness and inerter dampers. Journal of the Franklin Institute, 356(14), 7922-7946. IF = 3.653. 8. Shi X., Zhu S*, Ni Y Q, Li J (2018). Vibration suppression in high-speed trains with negative stiffness dampers. Smart Structures and Systems. IF = 3.622. 9. Shi X*, Shi W, Xing L. (2019). Performance analysis of vehicle suspension systems with negative stiffness. Smart Structures and Systems, 24(1), 141-155. IF = 3.622. 10. Shi, X., Shi, W., Lin, K., Xing, L., & Zhu, S. (2021). Optimal design of tuned inerter dampers with series or parallel stiffness connection for cable vibration control. Structural Control and Health Monitoring, 28(3), e2673. IF = 4.819. 11. Shi, X., Zhao, F., Yan, Z., Zhu, S., & Li, J. Y. (2021). High‐performance vibration isolation technique using passive negative stiffness and semiactive damping. Computer‐Aided Civil and Infrastructure Engineering. IF = 11.775.
◎Patent Magnetic negative stiffness damper, CN2014103999135 A passive linear negative stiffness device, CN2016101859971 A vibration control method of passive negative stiffness and semi-active variable damper, CN 2018115533244
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