李 翀
助理研究员、硕士生导师
电话：
邮箱：chongli@tsinghua.edu.cn
地址：北京市海淀区清华大学李兆基科技大楼A1023



教育背景
工作履历
科研工作
论文与专利
学术兼职

2011.08 ~ 2017.07，清华大学，博士
2013.10 ~ 2016.12，荷兰代尔夫特理工大学，博士（公派联培）
2007.09 ~ 2011.07，北京林业大学，学士
2019.10至今，清华大学，助理研究员
2017.07 ~ 2019.09，清华大学机械工程系，博士后
研究领域：智能与生物机械
研究方向：主要从事康复工程、人体效能增强、人机电一体化相关技术的研究
1. Li C, Jia T, Xu Q, Ji L, Pan Y. (2019). Brain-computer interface channel-selection strategy based on analysis of event-related desynchronization topography in stroke patients. Journal of Healthcare Engineering, 2019:1-12.
2. Li W, Li C, Xu Q, Ji L. (2019). Effects of Focal Vibration over Upper Limb Muscles on the Activation of Sensorimotor Cortex Network: An EEG Study. Journal of Healthcare Engineering, 2019(2):1-7.
3. Li W, Li C, Xiang Y, Ji L, Hu H, Liu Y. (2019). Study of the activation in sensorimotor cortex and topological properties of functional brain network following focal vibration in healthy subjects and subacute stroke patients: an EEG Study. Brain research, 1722, 146338.
4. Li W, Li C, Xu Q, Guan X, Ji L. (2019). Influence of focal vibration over Achilles tendon on the activation of sensorimotor cortex in healthy subjects and subacute stroke patients. Neuroreport, Volume 2019
5. Jia T, Li C, Guan X, Ji L. (2019). Enhancing engagement during robot-assisted rehabilitation integrated with motor imagery task. 2019 International Conference on Intelligent Medicine and Health, Ningbo, China.
6. Li C, Jia T, Ji L. (2018). Investigation of the Effects of Game Difficulty on the Engagement Level of Patient with Brain Injuries during Rehabilitation Exercise. Proceedings of 2018 10th International Conference on Signal Processing Systems, Singapore.
7. Li, C., Rusák, Z., Horváth, I., Kooijman, A., & Ji, L. (2017). Implementation and validation of engagement monitoring in an engagement enhancing rehabilitation system. IEEE Transactions on Neural Systems & Rehabilitation Engineering. 25(6), 726-738.
8. Liu, Y., Li, C., Ji, L., Bi, S., Zhang, X., Huo, J., & Ji, R. (2017). Development and Implementation of an End-Effector Upper Limb Rehabilitation Robot for Hemiplegic Patients with Line and Circle Tracking Training. Journal of Healthcare Engineering, 2017.
9. Li, C. (2016). Cyber-physical solution for an engagement enhancing rehabilitation system.
10. Li, C., Rusák, Z., Horváth, I., & Ji, L. (2016). Validation of the reasoning of an entry-level cyber-physical stroke rehabilitation system equipped with engagement enhancing capabilities. Engineering Applications of Artificial Intelligence, 56, 185–199.
11. Li, C., Rusák, Z., Horváth, I., &Ji, L. (2016). Development of engagement evaluation method and learning mechanism in an engagement enhancing rehabilitation system. Engineering Applications of Artificial Intelligence, 51, 182-190.
12. Li, C., Rusák, Z., Horváth, I., & Ji, L. (2014). Influence of complementing a robotic upper limb rehabilitation system with video games on the engagement of the participants. International Journal of Rehabilitation Research, 37(4), 334-342.
13. Li, C., Rusák, Z., Hou, Y., Young, C., & Ji, L. (2014). Upper limb motor rehabilitation integrated with video games focusing on training fingers’ fine movements. International Journal of Robotics and Automation, 29(4).
14. Li, C., Rusák, Z., Horváth, I., Ji, L., & Hou, Y. (2014). Current status of robotic stroke rehabilitation and opportunities for a cyber-physically assisted upper limb stroke rehabilitation. Proceedings of TMCE 2014, May 19-23, Budapest, Hungary.
15. Li, C., Liu, E., & Ji, L. (2013). Mechanical structure improvement of an upper limb rehabilitation robot: Based on an equivalent kinematic model. Journal of Mechanics in Medicine and Biology, 13(06), **.
16. Li, C., Sui J., & Ji L. (2013). Lower limb rehabilitation robots: A review. In Proceedings of the World Congress on Medical Physics and Biomedical Engineering May 26-31, 2012, Beijing, China, Springer, Berlin Heidelberg, 2042-2045.


中国康复医学会康复工程与产业促进分会委员
中国生物医学工程学会康复工程分会青年委员