部分论文:
1. Li, Y., Guan, X., Han, X., Tang, Z., Meng, K., Shi, Z., ... & Ji, L. (2020). Design and preliminary validation of a lower limb exoskeleton with compact and modular actuation. IEEE Access, 8, 66338-66352.
2. 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.
3. Guang, H., & Ji, L. (2019). Proprioceptive recognition with artificial neural networks based on organizations of spinocerebellar tract and cerebellum. International journal of neural systems, 29(07), 1850056.
4. Wang, K., Lu, Y., Cheng, J., & Ji, L. (2019). Prediction of residual clamping force for Coulomb type and Johnsen–Rahbek type of bipolar electrostatic chucks. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 233(1), 302-312.
5. Liu, F., Liu, Y., Lu, Y., Wang, Z., Shi, Y., Ji, L., & Cheng, J. (2019). Electrical analysis of triboelectric nanogenerator for high voltage applications exampled by DBD microplasma. Nano energy, 56, 482-493.
6. Guang, H., Ji, L., & Shi, Y. (2018). Focal vibration stretches muscle fibers by producing muscle waves. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 26(4), 839-846.
7. Liu, Y., Hong, Y., & Ji, L. (2018). Dynamic Analysis of the Abnormal Isometric Strength Movement Pattern between Shoulder and Elbow Joint in Patients with Hemiplegia. Journal of healthcare engineering, 2018.
8. Cheng, J., Ding, W., Zi, Y., Lu, Y., Ji, L., Liu, F., ... & Wang, Z. L. (2018). Triboelectric microplasma powered by mechanical stimuli. Nature communications, 9(1), 1-11.
9. Ma, Q., Ji, L., & Wang, R. (2017). The development and preliminary test of a powered alternately walking exoskeleton with the wheeled foot for paraplegic patients. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 26(2), 451-459.
10. 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.
11. Guan, X., Kuai, S., Ji, L., Wang, R., & Ji, R. (2017). Trunk muscle activity patterns and motion patterns of patients with motor complete spinal cord injury at T8 and T10 walking with different un-powered exoskeletons. The journal of spinal cord medicine, 40(4), 463-470.
12. Cao, M., Lu, Y., Cheng, J., & Ji, L. (2016). Electron heating enhancement due to plasma series resonance in a capacitively coupled RF discharge: Electrical modeling and comparison to experimental measurements. Japanese Journal of Applied Physics, 55(9), 096201.
13. 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.
14. Sui, J., Liu, Y., Yang, R., & Ji, L. (2014). A multiposture locomotor training device with force-field control. Advances in Mechanical Engineering, 6, 173518.
15. 贾天宇,钱超,李翀,季林红,刘爱贤,方伯言.(2020). 基于个性化导联选择策略的脑机交互康复训练临床初步研究.清华大学学报(自然科学版):1-7.
16. 赵蕾蕾,李翀,季林红,杨铁牛.(2019). 基于虚拟现实的自动驾驶模式中晕动受试者的脑电特征.清华大学学报(自然科学版):1-6.
17. 刘亚丽, & 季林红. (2018). 基于 Simulink 的上肢康复训练人机整体建模与分析. 生物医学工程学, 35(1).
18. 关鑫宇, 季林红, & 王人成. (2017). 无动力储能式截瘫助行外骨骼弹簧刚度优化. 清华大学学报(自然科学版).
已授权代表性发明专利:
1、季林红,马青川,一种用于脊髓损伤患者的足底轮式驱动自平衡动力外骨骼,ZL 201710236659.0
2、季林红,宋志尚,程嘉,路益嘉,王人成,一种坐位平衡康复训练机器人及其控制方法, ZL 201710206787.0
3、季林红,马青川, 一种用于截瘫康复训练的足底轮式驱动交替行走外骨骼装置,ZL 201610529902.3
4、季林红,马青川, 小直径大扭矩一体式轮毂电机,ZL 201610130545.3
5、季林红,光辉,刘亚丽, 基于交互力检测的康复训练装置,ZL 201610024154.3
6、季林红,刘亚丽,光辉, 交互式上肢康复机器人及控制方法,ZL 201510702326.3
7、季林红,马青川, 足底轮式驱动的截瘫助行外骨骼,ZL 201510284305.4
8、李建军,关鑫宇,杨明亮,季林红,王人成,高峰,于艳,王一吉,黄立男, 仿生储能式的截瘫助行外骨骼,ZL 201410741999.5
9、季林红,隋建锋,洪跃镇, 一种用于康复训练的机械振动电子装置,ZL 201410528198.0
10、季林红,刘亚丽,李翀, 用于手指康复训练的电子手套,ZL 201410281524.2
11、侯悦民,吴晓晶,季林红, 用于薄膜沉积工艺的装置,ZL 201410154930.2
12、程嘉,曹明路,季林红, 测量静电卡盘的静电力的装置,ZL 201310251181.0
13、季林红,隋建锋,程嘉,梁梅,杨尚元, 一种用于康复训练的踝关节扰动刺激装置,ZL 201210372274.4
14、季林红,隋建锋,杨润泽,杨尚元,李翀, 一种下肢康复训练机器人,ZL 201210295540.8
15、季林红,刘恩辰,潘杰, 一种平面训练上肢偏瘫多阶段康复并联机器人,ZL 201210214040.7
16、程嘉,王人成,季林红,刘伟峰,王春财,林嘉,孙钰淳,郝道欣, 用于内部稀薄气流模拟验证及压力检测的变结构真空腔室,ZL 201210016664.8
17、季林红,杨润泽,陈宏伟,隋建锋, 一种多位姿下肢康复训练机器人,ZL 201110439825.X
18、曹春梅,季林红,王子羲,陈小平, 一种水下艇速测量装置,ZL 201010002631.9
19、曹春梅,季林红,王子羲,陈小平, 一种杆件径向力测量装置,ZL 201010100187.4
20、杨昌喜,张仲桓,季林红,一种全光纤结构的多探头光纤倏逝波生物传感器,ZL 200910237887.5
21、王连泽,季林红,王子羲,王继明,张书谊, 排重排轻一体化颗粒分离器,ZL 200910081489.9
22、杨义勇,季林红,赵京辉,田尚云,朱利民, 一种气浮旋分过滤一体化系统,ZL 200910077608.3
23、杨义勇,季林红,田尚云,朱利民, 气浮旋分耦合工艺中的气泡发生器,ZL 200910076584.X
24、季林红,王子羲,伍昌键,张波, 一种有压雪功能的小型扫雪车,ZL 200810223763.7
25、季林红,王子羲,高伟,陈小平, 一种双腿可分开角度训练的坐式腿部力量训练器,ZL 200710063487.8
26、杨义勇,季林红,李洪波,沈国瑜,王延利,张同戌,霍伟杰, 直接镜检法牛奶体细胞/细菌自动计数仪,ZL 200710067170.1
27、季林红,曹辉,王子羲,陈小平,郭立云, 一种力量训练直线位移监测设备,ZL 200410073824.8
28、季林红,王子羲,毕胜,阳小勇, 手腕及手指关节运动康复训练机器人,ZL 200410009465.X
29、季林红,曹春梅, 一种跳板跳水辅助训练系统,ZL 200410030791.9
30、季林红,王耀兵,王广志,毕胜,王子羲,胡宇川,丑武胜, 偏瘫患者肩肘单关节运动的康复训练机器人,ZL 03150356.X
31、季林红,胡宇川,王广志,毕胜,王子羲,王耀兵,丑武胜, 偏瘫患者上肢复合运动的康复训练机器人,ZL 03150355.1