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冯朝

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冯朝,博士,分别于2014 年6 月与2020 年6 月在武汉大学动力与机械学院获得工学学士与工学博士学位,自2019 年1月至2020 年3 月,通过国家留学基金(CSC) 作为联合培养博士生在新加坡国立大学(National University of Singapore) 电子...

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研究领域

    期刊论文 (第一/通讯作者)

    1. Yang, S., Gao, X., Feng, Z.*, & Xiao, X.H* (2023). Learning Pose Dynamical System for Contact Tasks under Human Interaction. Actuators (Vol. 12, No. 4, p. 179). (SCI, IF=2.523, Q3, 4区)

    2.  Feng, Z., Liang, W.Y., Ling, J., Xiao, X.H., Tan, K.K., & Lee, T.H (2022). Precision Force Tracking Control of a Surgical Device Interacting With a Deformable Membrane. IEEE/ASME Transactions on Mechatronics, Accept. (SCI, IF=5.867, Q1, 1区Top)

    3.  Feng, Z., Liang, W.Y., Ling, J., Xiao, X.H., Tan, K.K.,& Lee, T.H (2022). Adaptive Robust Impedance Control for an Ear Surgical Device with Soft Interaction. IEEE/ASME Transactions on Mechatronics,  27(3), 1784-1795. (SCI, IF=5.867, Q1, 1区Top)

    4. Feng, Z., Ming, M., Ling, J., Xiao, X.H., Yang, Z. X., & Wan, F. (2022). Fractional Delay Filter based Repetitive Control for Precision Tracking: Design and Application to a Piezoelectric Nanopositioning Stage. Mechanical Systems and Signal Processing, 164, 108249. (SCI, IF=8.934, Q1, 1区Top)

    5. Feng, Z., Liang, W.Y., Ling, J., Xiao, X.H., Tan, K.K., & Lee, T.H. (2020). Integral Terminal Sliding Mode based Adaptive Integral Backstepping Control for Precision Motion of a Piezoelectric Ultrasonic Motor. Mechanical Systems and Signal Processing, 144, 106856. (SCI, IF=8.934, Q1, 1区Top)

    6. Feng, Z., Ling, J.,Ming, M., Liang, W.Y., Tan, K.K., & Xiao, X.H. (2020). Signal-transformation-based Repetitive Control of Spiral Trajectory for Piezoelectric Nanopositioning Stages, IEEE/ASME Transactions on Mechatronics, 25(3), 1634-1645. (SCI, IF=5.867, Q1, 1区Top)

    7.  Feng, Z., Ling, J., Ming, M., & Xiao, X.H. (2019). Integrated Modified Repetitive Control with Disturbance Observer of Piezoelectric Nanopositioning Stages for High-speed and Precision Motion. Journal of Dynamic Systems, Measurement, and Control, 141(8), 081006. (SCI, IF=1.640, Q4, 4区)

    8. Feng, Z., Ling, J., Ming, M., & Xiao, X.H. (2018). A Model-data Integrated Iterative Learning Controller for Flexible Tracking with Application to a Piezo Nanopositioner. Transactions of the Institute of Measurement and Control, 40(10), 3201-3210. (SCI, IF=2.146, Q3, 4区)

    9.  Feng, Z., Ling, J., Ming, M., & Xiao, X.H. (2017). Data-based Double-feedforward Controller Design for a Coupled Parallel Piezo Nanopositioning Stage. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, 231(10), 881-892. (SCI, IF=1.623, Q4, 4区)

    10.  Feng, Z., Ling, J., Ming, M., & Xiao, X.H. (2017). High-bandwidth and Flexible Tracking Control for Precision Motion with Application to a Piezo Nanopositioner. Review of Scientific Instruments, 88(8), 085107. (SCI, IF=1.843, Q3, 4区)

    11. 冯朝, 凌杰, 明敏, & 肖晓晖. (2018). 融合迭代学习与干扰观测器的压电微动平台精密运动控制. 机器人, (6), 825-834. (中文EI)


    会议论文 (第一/通讯作者)

    1. Feng, Z., Ling, J., & Shen, Y. (2022, August). Discrete-Time Integral Terminal Sliding Mode based Repetitive Control for Periodic Motion Tracking. In 2022 IEEE 11th Data Driven Control and Learning Systems Conference (DDCLS) (pp. 1031-1036). (EI会议)

    2.  Feng, Z., Ling, J., Wan. F., & Yang, Z. X. (2021, May). Iterative Learning Enhanced Integral Terminal Sliding Mode Control for Precision Motion Systems. 2021 IEEE 10th Data Driven Control and Learning Systems Conference (DDCLS'21) (pp. 778-783). (EI会议)

    3. Liang, W. Y#., Feng, Z.#(equal contribution), Wu, Y., Gao, J., Ren, Q., & Lee, T. H. (2020, August). Robust Force Tracking Impedance Control of an Ultrasonic Motor-actuated End-effector in a Soft Environment. In 2020 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) (pp. 7716-7722). (EI会议)

    4. Feng, Z., Ling, J., Ming, M., & Xiao, X.H. (2019, August). Model-assisted Extended State Observer based Repetitive Control for High Precision Tracking of Piezoelectric Nanopositioning Stages. In 38th Chinese Control Conference (CCC2019). (EI会议)

    5. Feng, Z., Ling, J., Ming, M., & Xiao, X.H. (2016, August). Data-driven Feedforward Decoupling Filter Design for Parallel Nanopositioning Stages. In International Conference on Intelligent Robotics and Applications (ICIRA) (pp. 709-720). Springer, Cham. (EI会议)


    合著论文 

    1. 何思宇,鲁浩林,冯朝 & 肖晓晖. (2023).基于平行度误差补偿的多通道双晶单色器运动控制[J].光学精密工程, 31(09):1335-1346. (中文EI)

    2. Ling, J., Feng, Z., Chen, L., Zhu, Y., & Pan, Y. (2023). Neural network-based iterative learning control of a piezo-driven nanopositioning stage. Precision Engineering, 81, 112-123. (SCI, IF=3.315, Q2, 2区)

    3. Ling, J., Ye, T., Feng, Z., Zhu, Y., Li, Y., & Xiao, X.H (2022). A Survey on Synthesis of Compliant Constant force/torque Mechanisms. Mechanism and Machine Theory176, 104970. (SCI, IF=4.930, Q1, 1区Top)

    4. Ling, J., Chen, L., Feng, Z., & Zhu, Y. (2022). Development and test of a high speed pusher-type inchworm piezoelectric actuator with asymmetric driving and clamping configuration. Mechanism and Machine Theory176, 104997.(SCI, IF=4.930, Q1, 1区Top)

    5. He, S., Lu, H., Feng, Z., & Xiao, X.H. Position Tracking for Multi-Channel Double-Crystal Monochromator Scanning Based on Iterative Learning Control. Actuators (Vol. 11, No. 7, p. 177). (SCI, IF=2.523, Q3, 4区)

    6. Chen, L., Zhu, Y., Ling, J., & Feng, Z. (2022). Theoretical Modeling and Experimental Evaluation of a Magnetostrictive Actuator with Radial-nested Stacked Configuration. Nonlinear Dynamics, 1-17. (SCI, IF=5.741, Q1, 2区)

    7. Ren, Q., Zhu, W., Feng, Z., & Liang, W.Y. (2021). Learning-Based Force Control of a Surgical Robot for Tool-Soft Tissue Interaction. IEEE Robotics and Automation Letters, 6(4), 6345-6352. (SCI, IF=4.321, Q2, 2区)

    8.  Ming, M., Liang, W.Y., Feng, Z., Ling, J., Al Mamun, A., & Xiao, X.H. (2021). PID-type Sliding Mode-based Adaptive Motion Control of a 2-DOF Piezoelectric Ultrasonic Motor Driven Stage. Mechatronics, 76, 102543. (SCI, IF=3.379, Q2, 2区)

    9.  Ling, J., Feng, Z., Kang, X., & Xiao, X.H. (2021). Bandwidth Enhancement in Damping Control for Piezoelectric Nanopositioning Stages with Load Uncertainty: Design and Implementation. Journal of Vibration and Control, 27(11-12), 1382-1394.(SCI, IF=2.633, Q2, 3区)

    10.  Chen, L., Zhu, Y.C., Ling, J., & Feng, Z. (2021). Development and Test of a Two-dimensional Stacked Terfenol-D Actuator with High Bandwidth and Large Stroke. IEEE/ASME Transactions on Mechatronics, 26(4), 1951-1959. (SCI, IF=5.867, Q1, 1区Top)

    11.  Qiu, C.C., Ling, J., Zhang, Y.K., Ming, M., Feng, Z., & Xiao, X.H. (2021). A Novel Cooperative Compensation Method to Compensate for Return Stroke of Stick-slip Piezoelectric Actuators. Mechanism and Machine Theory, 159, 104254. (SCI, IF=4.930, Q1, 1区Top)

    12. Ye, T.T., Ling, J., Kang, X., Feng, Z., & Xiao, X.H. (2021). A Novel Two-stage Constant Force Compliant Microgripper. Journal of Mechanical Design, 143(5). (SCI, IF=3.251, Q2, 3区)

    13. Ling, J., Feng, Z., Zheng, D., Yang, J., Yu, H., & Xiao, X.H. (2021). Robust Adaptive Motion Tracking of Piezoelectric Actuated Stages using Online Neural-network-based Sliding Mode Control. Mechanical Systems and Signal Processing, 150, 107235. (SCI, IF=8.934, Q1, 1区Top)

    14. Ming, M., Feng, Z.,Ling, J., & Xiao, X.H. (2020).Disturbance Observer based Model Prediction Control with Real-time Modified Reference for a Piezo-actuated Nanopositioning Stage. Transactions of the Institute of Measurement and Control, 42(4), 813-822. (SCI, IF=2.146, Q3, 4区)

    15. Ling, J., Feng, Z., Ming, M., Guo, Z., & Xiao, X.H. (2019). Signal Transformed Internal Model Control for Non-raster Scanning of Piezo-actuated Nanopositioning Stages. International Journal of Control, Automation and Systems,18(8), 1915-1925. (SCI, IF=2.964, Q2, 3区)

    16. Ling, J., Feng, Z., Ming, M., & Xiao, X.H. (2019). Model Reference Adaptive Damping Control for a Nanopositioning Stage with Load Uncertainties. Review of Scientific Instruments, 90(4), 045101. (SCI, IF=1.843, Q3, 4区)

    17. Ling, J., Rakotondrabe, M., Feng, Z., Ming, M., & Xiao, X.H. (2019). A Robust Resonant Controller for High-Speed Scanning of Nanopositioners: Design and Implementation. IEEE Transactions on Control Systems Technology. 28(3), 1116-1123. (SCI, IF=5.418, Q1, 2区)

    18. Ming, M., Ling, J., Feng, Z., & Xiao, X.H. (2018). A Model Prediction Control Design for Inverse Multiplicative Structure based Feedforward Hysteresis Compensation of a Piezo Nanopositioning Stage. International Journal of Precision Engineering and Manufacturing, 19(11), 1699-1708. (SCI, IF=2.041 , Q4, 4区)

    19. Ming, M., Feng, Z., Ling, J., & Xiao, X. H. (2018). Hysteresis Modelling and Feedforward Compensation of Piezoelectric Nanopositioning stage with a Modified Bouc‐Wen Model. Micro & Nano Letters, 13(8), 1170-1174. (SCI, IF=0.98, Q4, 4区)

    20. Ling, J., Feng, Z., Yao, D., & Xiao, X.H. (2018). Non-linear Contour Tracking using Feedback PID and Feedforward Position Domain Cross-coupled Iterative Learning Control. Transactions of the Institute of Measurement and Control, 40(6), 1970-1982. (SCI, IF=2.146, Q3, 4区)

    21. Ling, J., Feng, Z., Ming, M., & Xiao, X.H. (2018). Damping Controller Design for Nanopositioners: A Hybrid Reference Model Matching and Virtual Reference Feedback Tuning Approach. International Journal of Precision Engineering and Manufacturing, 19(11), 1699-1708. (SCI, IF=2.041, Q4, 4区)

    22. Ling, J., Feng, Z., Ming, M., & Xiao, X.H. (2018). Precision Contour Tracking using Feedback-feedforward Integrated Control for a 2-DOF Manipulation System. International Journal of Robotics & Automation, 33(3), 276-283. (SCI, IF=1.041, Q4, 4区)

    23. 凌杰, 明敏, 冯朝, & 肖晓晖. (2017). 多轴运动系统非线性轮廓重复跟踪的主从交叉耦合迭代学习控制. 自动化学报, 43(12), 2127-2140. (中文EI)

    24. Ming, M., Liang, W.Y., Ling, J., Feng, Z., Al Mamun, A., & Xiao, X.H. (2020, October). Composite Integral Sliding Mode Control with Neural Network-based Friction Compensation for a Piezoelectric Ultrasonic Motor. In IECON 2020 The 46th Annual Conference of the IEEE Industrial Electronics Society (pp. 4397-4402). IEEE. (EI会议)

    25. Ling, J., Ye, T.T., Feng, Z., Ming, M., & Xiao, X.H. (2019, October). Damping Controller Design for Triangular Scanning of a Third-Order Nanopositioning Stage. In 2019 19th International Conference on Control, Automation and Systems (ICCAS) (pp. 412-417). IEEE. (中文EI)

    26. Ming, M., Feng, Z., Ling, J., & Xiao, X.H. (2019, October). Disturbance Observer based Model Prediction Control for a 2-DOF Nanopositioning Stage. In IECON 2019-45th Annual Conference of the IEEE Industrial Electronics Society (Vol. 1, pp. 5211-5216). IEEE. (EI会议)

    27. Ling, J., Feng, Z., Ming, M., Guo, Z., & Xiao, X.H. (2018, July). Integrating Damping Control with Iterative Learning Control for Fast and Precise Scanning of Nanopositioners: A TITO Design. In 2018 3rd International Conference on Advanced Robotics and Mechatronics (ICARM) (pp. 183-188). IEEE. (EI会议)

    28. Ling, J., Feng, Z., Yao, D., & Xiao, X.H. (2016, July). A Position Domain Iteration Learning Control for Contour Tracking with Application to a Multi-axis Motion Testbed. In 2016 American Control Conference (ACC) (pp. 1247-1252). IEEE. (EI会议)

    29. Ling, J., Feng, Z., & Xiao, X.H. (2015, August). A Position Domain Cross-coupled Iteration Learning Control for Contour Tracking in Multi-axis Precision Motion Control Systems. In International Conference on Intelligent Robotics and Applications (pp. 667-679). Springer, Cham. (EI会议)

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