• Publications

    THESIS | 学位论文

    • Ph.D. Dissertation: Vibration-based electromagnetic energy harvester: Energy performance, vibration control, and frequency tuning (Link)
    • Master Thesis: Bridge damage detection under structural health monitoring system based on influence lines (in Chinese) (结构健康监测系统下基于影响线的桥梁损伤识别) (福建省优秀硕士学位论文) (Link)

    JOURNAL PAPERS (H-index: 14) | 期刊论文

    1. Shi, X., Li, J., Zhu, S., Cai, Q.*, Dai, K., and Han, W. (2025) “Negative stiffness energy-harvesting electromagnetic damper for vibration control of bridge stay cable.” Engineering Structures, 332: 120072 (DOI)
    2. Lu, J., Cai, Q., and Zhu, S.* (2025) Superior vibration isolation performance of inerter dampers for SDOF structures under narrowband random excitations.Engineering Structures, 326: 119413. (DOI)
    3. Cai, Q., Wang, J., Dai, K.*, Cheng, Y., Li, Y., Ma, W., and Sun, Z. (2025). Vibration reduction of offshore wind turbines using self-powered-feasible semi-active tuned mass damper. Ocean Engineering, 318, 120182. (DOI)
    4. Tang, J., Cai, Q.*, Dai, K.*, Liu, Y., Heng, J., and Luo, Y. (2025). A cable-based tuned inerter damper for edgewise vibration control of the wind turbine blade. Engineering Structures, 323: 119248. (DOI)
    5. Cai, Q., Lu, P., Chen, Y.B., and Shi, X.* (2024) “Robustness analysis for the vibration control performance of energy-harvesting tuned mass damper with uncertainties. Smart Materials and Structures. 33(8): 085004. (DOI)
    6. Cai, Q., Hua, Y.Y., Zhu, S., Zhang, X., and Zuo H.R.* (2024) “Bistable energy-harvesting track nonlinear energy sink in offshore wind turbines. Mechanical Systems and Signal Processing. 215: 111407. (被AIE评为关键科学论文) (DOI)
    7. Shi, X., Wei X., Li, J.*, Xing, H., Cai, Q. (2024) “Robustness evaluation of negative stiffness damper for cable vibration mitigation based on interval model with experimental validation.” Structural Control and Health Monitoring. 2024(1): 1258183. (DOI)
    8. Cai, Q., and Zhu, S.* (2024) “Nonlinear double-mass pendulum for vibration-based energy harvesting. Nonlinear Dynamics. 112: 5109-5128. (DOI)
    9. Cai, Q., and Zhu, S.* (2023) “Optical frequency domain reflectomerty sensing for damage detection in long-span bridges using influence surfaces. Structural Health Monitoring. 22(5): 3465-3480. (DOI)
    10. Cai, Q., Chen, Z.W., and Zhu, S.* (2023) “Experimental study of influence line-based damage localization for long-span cable-suspension bridges.” ASCE Journal of Bridge Engineering. 28(3): 04022151. (DOI)
    11. Cai, Q., Chen, Z.W., Zhu, S.*, and Mo, L.Y. (2022) “On damage detection of beam structures using multiple types of influence lines.” Structures. 42: 449-465. (DOI)
    12. Hua, Y., Cai, Q., and Zhu, S.* (2022) “Energy-regenerative semiactive lateral suspension control in high-speed train using electromagnetic damper cum energy harvester. IEEE Transactions on Vehicular Technology. 71(5): 4801-4812. (DOI)
    13. Cai, Q., and Zhu, S.* (2022) “The nexus between vibration-based energy harvesting and structural vibration control: A comprehensive review.” Renewable and Sustainable Energy Reviews. 155: 311920. (ESI高被引论文) (DOI)
    14. Cai, Q., and Zhu, S.* (2021) “Applying double-mass pendulum oscillator with tunable ultra-low frequency in wave energy converter.” Applied Energy. 298: 117228. (DOI)
    15. Cai, Q., Hua, Y.Y., and Zhu, S.* (2021) “Energy-harvesting adaptive vibration damping in high-speed train suspension using electromagnetic damper.” International Journal of Structural Stability and Dynamics. 2140002. (DOI)
    16. Chen, Z.W.*, Zhao, L., Zhang, J., Cai, Q., Li, J., and Zhu, S. (2021) “Damage quantification of beam structures using deflection influence line changes and sparse regularization.” Advances in Structural Engineering. 24(9): 1997-2010. (DOI)
    17. Cai, Q., Zhu, S., and Ke, S. (2020) “Can we unify vibration control and energy harvesting objectives in energy regenerative tuned mass dampers?” Smart Materials and Structures. 29: 087002. (DOI)
    18. Cai, Q., and Zhu, S.* (2020) “Unified strategy for overall impedance optimization in vibration-based electromagnetic energy harvesters.” International Journal of Mechanical Sciences. 165: 105198. (DOI)
    19. Cai, Q., and Zhu, S.* (2019) “Enhancing the performance of electromagnetic damper cum energy harvester using microcontroller: Concept and experimental validation.” Mechanical Systems and Signal Processing. 134: 106339. (DOI)
    20. Chen, Z.W., Cai, Q., and Zhu, S.* (2018) “Damage quantification of beam structures using deflection influence lines.” Structural Control and Health Monitoring. 25(11): e2242. (DOI)
    21. Chen, Z.W.*, Yang, W.B., Li, J., Cheng, Q., and Cai, Q. (2017) “A systematic method from influence line identification to damage detection: Application to RC bridges.” Computers and Concrete. 20(5): 563-572. (DOI)
    22. Chen, Z.W.*, Cai, Q., and Li, J. (2016) “Stress influence line identification of long suspension bridges installed with structural health monitoring systems.” International Journal of Structural Stability and Dynamics. 16(04): 1640023. (DOI)
    23. Chen, Z.W., Zhu, S.*, Xu, Y.L., Li, Q., and Cai, Q. (2015) “Damage detection in long suspension bridges using stress influence lines.” ASCE Journal of Bridge Engineering. 20(3): 05014013. (本科毕业论文主体部分) (DOI)
    24. Zhu, S., Chen, Z.W.*, Cai, Q., and Lei, Y. (2014) “Locate damage in long-span bridges based on stress influence lines and information fusion technique.” Advances in Structural Engineering. 17(8): 1089-1102. (DOI)
    25. Chen, Z.W.*, Cai, Q., Zhu, S., and Lei, Y. (2014) “Damage detection of long-span bridges using stress influence lines incorporating control chart.” Science China Technological Sciences. 57(9): 1689-1697. (DOI)

    * denotes the corresponding author(s)

    PATENTS | 专利

    1. 戴靠山, 刘仰昭, 蔡亲霖, 唐大伦, 王健泽. “一种基于驰振原理的风力发电装置及方法, 中国发明专利,CN119435299A, 公开日期2025年2月14日。
    2. 蔡亲霖, 戴靠山, 张毅, 唐家伟. 一种漂浮式风力机气动-机械-液动一体化减载抑振系统及方法, 中国发明专利CN119122740A, 公开日期2024年12月13日
    3. 戴靠山, 郭云龙, 罗宇骁, 衡俊霖, 蔡亲霖, 王健泽. 海上风电FRP-混凝土-钢双壁空心单桩基础支撑结构, 中国发明专利CN118128082A, 公开日期2024年6月4日。
    4. 朱松晔, 蔡亲霖. “一种低频且频率可调的浮子式波浪发电装置”, 中国发明专利CN111997823A, 授权日期2022年9月6日(Link)
    5. 陈志为, 朱松晔, 蔡亲霖. “一种基于挠度影响线的桥梁局部损伤量化方法”, 中国发明专利CN106156501B, 授权日期2018年7月31日(Link)

    SPECIFICATIONS | 标准

    • Technical specification on influence line test for rapid assessment of bridge condition (桥梁状态快速评定技术规程 影响线法). 厦门市地方标准,参编。(Link)

    CONFERENCES AND TALKS | 会议报告

    1. “Self-powered semi-active vibration control of monopile offshore wind turbines.” In 1st International Conference on Engineering Structures, Guangzhou, China, 8-11, Nov. 2024. (特邀报告)
    2. “基于自供能半主动电磁阻尼的海上风力机振动控制.” 第十届全国结构抗振控制与健康监测学术会议暨中国振动工程学会青年学者论坛, 厦门, 2024-11-1至2024-11-4.
    3. “Negative stiffness energy-harvesting electromagnetic damper: Stay cable application.” In 3rd ZHITU Symposium, Tokyo, Japan. 20-22, Aug. 2023.
    4. “The nexus between vibration-based energy harvesting and structural vibration control.” In Disaster Prevention and Mitigation Forum, Department of Civil Engineering, Sichuan University, Chengdu, China. 27, Mar. 2023.
    5. “Experimental study of influence line-based damage detection for long-span bridges.” In InternationalConference on Smart Monitoring, Assessment and Rehabilitation of Civil Structures, Shanghai, China. 06-09, Sep. 2022. (Online).
    6. “Vibration-basedenergy harvesting circuit using feed-forward control.” In Sensors and SmartStructures Technologies for Civil, Mechanical, and Aerospace Systems-SPIE, Denver, USA. 03-09, Mar. 2019. (Vol. 10970, pp. 257-263).
    7. “Detecting beam damage using deflection influence lines.” In 7th Asia-Pacific Workshopon Structural Health Monitoring, Hong Kong, China, 12-15, Nov. 2018.

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