千赢国/qy88千嬴国际官网-手机版

师资队伍
李翔

副教授

工业智能与系统研究所

电话:
地点:北京千赢国系


教育背景


2002年9月至2006年7月 北京理工大学光电学院,获学士学位

2006年9月至2008年7月 北京理工大学光电学院,获硕士学位

2008年8月至2013年6月 新加坡南洋理工大学电子与电气工程学院,获博士学位


工作履历


2012年8月至2015年2月 新加坡南洋理工大学,博士后

2015年2月至2016年8月 新加坡国立大学,博士后

2016年8月至2019年6月 香港中文大学,研究助理教授

2019年6月至今 千赢国系,副教授


学术兼职


Associate Editor,《IEEE Robotics and Automation Magazine》

Associate Editor, 2019 and 2020 IEEE International Conference on Robotics and Automation (ICRA)

ICRA, IROS, CDC, AIM, IFAC等国际学术会议和Automatica, TRO, RAL, TMECH, TNNLS, TASE, TIE, TCST等国际期刊审稿人


研究领域


机器人操作、视觉伺服、人机交互、微纳机器人


研究概况


香港创新科技署项目:用于自动化焊接柔性印刷电路板和USB线缆的视觉反馈机器人,项目负责人,2017.11-2019.4

香港创新科技署项目:室内装修机器人关键技术研究,项目负责人,2018.1-2019.12

香港创新科技署项目:用于打磨木盒表面涂层的机器人系统开发,项目负责人,2018.3-2019.2

深圳科创委基础研究项目(学科布局):工业机械臂的自治柔性操作技术研究,项目负责人,2018.2-2021.2

国家自然科学基金青年基金项目:面向外骨骼机器人的动态阻抗控制方法,项目负责人,2019.1-2021.12

Hong Kong RGC GRF (14200319), "Shape Control and Task Planning for Robotic Manipulation of Deformable Linear Objects", Jan. 1, 2020 - Dec. 31, 2022, PI (awarded)

清华大学国强研究院项目:面向线状柔性体的机器人自主操作技术,项目负责人,2019.12-2021.12

佛山-清华产学研合作协同创新专项:基于视觉反馈的USB线缆自主焊接机器人,项目负责人,2020.1-2020.12


奖励与荣誉


2018: T. J. Tarn Best Paper in Robotics in the IEEE International Conference on Robotics and Biomimetics

2017: Best Application Paper Finalists in IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

2017: Best Paper in Robotic Control in the 18th International Conference on Advanced Robotics

2013: Highly Commended Paper Award in the third IFToMM International Symposium on Robotics and Mechatronics


学术成果


专著:

C. C. Cheah and X. Li, Task-Space Sensory Feedback Control of Robot Manipulator, Springer, 2015.

专利:

(1) X. Li, Z. Chen, Y. Gao, and Y.-H. Liu, “Apparatus for Separating USB Wires,” US Provisional Patent, 2018.

(2) X. Li, Z. Chen, Y. Gao, and Y.-H. Liu, “Apparatus and Method for Sorting USB Wires,” US Provisional Patent, 2018.

部分期刊论文:

(1) X. Li, Y. Pan, G. Chen, and H. Yu, “Multi-modal control scheme for rehabilitation robotic exoskeletons,” The International Journal of Robotics Research, 36(5-7):759- 777, 2017.

(2) X. Li, Y. Pan, G. Chen, and H. Yu, “Adaptive human-robot interaction control for robots driven by series elastic actuators,” IEEE Transactions on Robotics, (Regular Paper), 33(1):169-182, 2017.

(3) X. Li, C. C. Cheah, S. Hu, and D. Sun, “Dynamic trapping and manipulation of biological cells with optical tweezers,” Automatica, (Regular Paper), 49(6):1614-1625, 2013.

(4) X. Li and C. C. Cheah, “Global task-space adaptive control of robot,” Automatica, (Regular Paper), 49(1):58-69, 2013.

(5) X. Li, Y.-H. Liu, and H. Yu, “Iterative learning impedance control for rehabilitation robots driven by series elastic actuators,” Automatica, 90:1-7, 2018.

(6) X. Li, C. C. Cheah, and Q. M. Ta, “Cooperative optical trapping and manipulation of multiple cells with robot tweezers,” IEEE Transactions on Control Systems Technology, (Regular Paper), 25(5):1564-1575, 2017.

(7) X. Li, G. Chi, S. Vidas, and C. C. Cheah, “Human-guided robotic co-manipulation: Two illustrative scenarios,” IEEE Transactions on Control Systems Technology, (Regular Paper), 24(5), 1751-1763, 2016.

(8) X. Li and C. C. Cheah, “Tracking control for optical manipulation with adaptation of trapping stiffness,” IEEE Transactions on Control Systems Technology, (Regular Paper), 24(4):1432-1440, 2015.

(9) X. Li and C. C. Cheah, “Adaptive neural network control of robot based on a unified objective bound,” IEEE Transactions on Control Systems Technology, (Regular Paper), 22(3):1032-1043, 2014.

(10) X. Li, X. Su, and Y.-H. Liu, “Vision-based robotic manipulation of flexible PCBs,” IEEE/ASME Transactions on Mechatronics, (Regular Paper), 23(6):2739-2749, 2018.

(11) X. Li and C. C. Cheah, “Stochastic optical trapping and manipulation of micro object with neural-network adaptation,” IEEE/ASME Transactions on Mechatronics, (Regular Paper), 22(6):2633-2642, 2017.

(12) X. Li and C. C. Cheah, “Robotic cell manipulation using optical tweezers with unknown trapping stiffness and limited field of view,” IEEE/ASME Transactions on Mechatronics, (Regular Paper), 20(4):1624-1632, 2014.

(13) X. Li, Y. Pan, G. Chen, and H. Yu, “Continuous tracking control for a compliant actuator with two-stage stiffness,” IEEE Transactions on Automation Science and Engineering, (Regular Paper), 15(1):57-66, 2018.

(14) X. Li and C. C. Cheah, “A simple trapping and manipulation method of biological cell using robot-assisted optical tweezers: Singular perturbation approach,” IEEE Transactions on Industrial Electronics, (Regular Paper), 64(2):1656-1663, 2017.

(15) C. C. Cheah, X. Li, X. Yan, and D. Sun, “Observer based optical manipulation of biological cells with robotic tweezers,” IEEE Transactions on Robotics, (Regular Paper), 30(1):68-80, 2014.

(16) C. C. Cheah, X. Li, X. Yan, and D. Sun, “Simple PD control scheme for robotic manipulation of biological cell,” IEEE Transactions on Automatic Control, 60(5):1427-1432, 2014.

部分会议论文:

(1)Y. Zhou, X. Li*, L. Yue, L. Gui, G. Sun, X. Jiang, and Y.-H. Liu, “Global vision-based impedance control for robotic wall polishing," IEEE/RSJ Int. Conf. Intelli. Robots Syst., (IROS), 2019, online.

(2)Y. Huo, D. Chen, X. Li*, P. Li, and Y.-H. Liu, “Development of an autonomous sanding robot with structured-light technology," IEEE/RSJ Int. Conf. Intelli. Robots Syst., (IROS), 2019, online.

(3)G. Sun, X. Li*, L. Yue, P. Li, Y. Zhou, and Y.-H. Liu, “Adaptive vision-based control for rope-climbing robot manipulator," IEEE/RSJ Int. Conf. Intelli. Robots Syst., (IROS), 2019, online.

(4)Z. Wang, X. Li*, D. Navarro-Alarcon, and Y.-H. Liu, “A unified controller for regionreaching and deforming of soft objects,” IEEE/RSJ Int. Conf. Intelli. Robots Syst., (IROS), 472-478, 2018.

(5)X. Li, X. Su, Y. Gao, and Y.-H. Liu, “Vision-based robotic grasping and manipulation of USB wires,” IEEE Int. Conf. Robotics Automat., (ICRA), 3482-3487, 2018.

(6)G. Sun, X. Li*, P. Li, Y. Meng, Y. Zhou, E. Xu, and Y.-H. Liu, “A synchronization scheme for position control of multiple rope-climbing robots,” IEEE Int. Conf. Robotics Automat., (ICRA), 3736-3741, 2018.

(7)X. Li, X. Su, and Y.-H. Liu, “Cooperative robotic soldering of flexible PCBs,” IEEE/RSJ Int. Conf. Intelli. Robots Syst., (IROS), 1651-1656, 2017.

(8)X. Li, G. Chen, Y. Pan, and H. Yu, “Region control for robots driven by series elastic actuators,” IEEE Int. Conf. Robotics Automat., (ICRA), 1102-1107, 2016.

(9)X. Li, X. Yan, and C. C. Cheah, “Robot-assisted optical trapping and manipulation of a biological cell with stochastic perturbations,” IEEE Int. Conf. Robotics Automat., (ICRA), 5236-5241, 2016.

(10)X. Li, and C. C. Cheah, “Human-guided robotic manipulation: theory and experiments,” IEEE Int. Conf. Robotics Automat., (ICRA), 4594-4599, 2014.

(11)X. Li, C. C. Cheah, X. Yan, and D. Sun, “Robotic cell manipulation using optical tweezers with limited FOV,” IEEE Int. Conf. Robotics Automat., (ICRA), 4588-4593, 2014.

(12)X. Li, and C. C. Cheah, “Dynamic region control for robot-assisted cell manipulation using optical tweezers,” IEEE Int. Conf. Robotics Automat., (ICRA), 1057-1062, 2012.

(13)X. Li, and C. C. Cheah, “Multiple task-space robot control: sense locally, act globally,” IEEE Int. Conf. Robotics Automat., (ICRA), 265-270, 2012.

(14)C. C. Cheah, and X. Li, “Singularity-robust task-space tracking control of robot,” IEEE Int. Conf. Robotics Automat., (ICRA), 5819-5824, 2011.

(15)C. C. Cheah, and X. Li, “Reach then see: A new adaptive controller for robot manipulator based on dual task-space information,” IEEE Int. Conf. Robotics Automat., (ICRA), 5155-5160, 2010.

*通信作者


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