一. 研究领域

     1. 具身感知及人机交互可穿戴技术------面向人体工效学与健康监测需求，研究基于柔性电子材料的生理信号检测方法，发展具备感知-计算-反馈一体化的智能可穿戴系统，实现对人体运动、生理状态的连续及舒适监测。

     2. 多模态信息融合及智能评估技术------重点研究异构生物医学信号(如EEG、EMG、fNIRS、fMIR)与行为数据的协同表征学习，开发基于脑科学、深度神经网络的融合算法，从复杂数据中提取高鲁棒性的生理及病理特征。

     3. 脑机接口解码及具身交互共享--------围绕脑-机双向接口技术，研究高精度神经电信号解码算法，并探索基于“具身认知”理念的交互范式，实现人机之间的意图理解、动作执行与感觉反馈的闭环共享。

     4. 闭环神经调控及个性化康复策略------结合实时生理反馈与电/磁刺激技术，研究感知-分析-调控闭环神经调控系统；基于运动学习理论与康复机器人，制定个性化的、自适应的智能康复训练方案，以促进神经功能重塑。

     5. 智能诊疗及多模态辅助决策诊断------融合影像、文本、电生理等多模态数据，利用深度学习与知识图谱技术，构建可解释的辅助诊断模型，探索疾病早期预警与精准分型的新方法。

二. 学术论文（详见ORCID: https://orcid.org/0000-0003-3677-3753）

    1. 英文论文

[1] Dong Zhang, Xiaoling Chen*, Ttianqing Li, Huaigang Yang, Jinxu Yu and Ping Xie, A novel multidimensional approach to motor function assessment under functional electrical stimulation: integration of electromyography and inertial information. IEEE Transactions on Instrumentation and Measurement, 2026, 75: 1-13. DOI: 10.1109/TIM.2025.3650289. 出版年 1月 2026 (2区, IF=5.9)

[2] Huaigang Yang, Xinfeng Hu, Dong Zhang, Tianqing Li, Xiening Shao, Ping Xie, Xiaoling Chen^*. UBMSDA: An unbalanced multi-source domain adaptive network based on user differences for cross-user myoelectric pattern recognition. Biomedical signal processing and control, 2026, 114: 109363. DOI: https://doi.org/10.1016/j.bspc.2025.109363. 出版年 APR 1 2026 (2区, IF=4.9)

[3] Yajie Chang^#, Xiaoling Chen^#, Tengyu Zhang*, Congcong Huo, Aiping Sun, Beihua Zhang. Study of the relationships between gait characteristics and brain function in children with cerebral palsy during walking. 2026. Archives of physical medicine and rehabilitation. (2区, IF=3.7)

[4] Y. Hao, X. Chen, J. Zhang, W. Hu, M. Tang and P. Xie, "Frequency-Specific and Topological Reorganization in Multilayer Corticomuscular Network Following Stroke, IEEE Transactions on Neural Systems and Rehabilitation Engineering, doi: 10.1109/TNSRE.2026.3662361. 2026

[5] Qixun Xiu, Ying Wang, Xiaoling Chen, Dupu Zhang, Tengfei Ma, Jinxu Yu, Ping Xie^*. RIME-Optimized CEEMDAN-LSTM framework for sEMG prediction: across subject, tasks and ages study. 2026

[6] Ping Xie, Hui Lv, Peng Wang, Zilong Wang, Yingying Hao, Zhiqi Mao, Haohao Zhang*, Xiaoling Chen*. Abnormal large-scale dynamic brain networks in parkinson's disease with cognitive impairment:  insights from EEG co-Activation patterns. IEEE transactions on neural systems and rehabilitation engineering. 2026, 34: 405-415. DOI: 10.1109/TNSRE.2025.3644182. 出版年 2026 (2区, IF=5.2)

[7] Huaigang Yang, Dong Zhang, Ping Xie, Xiaoling Chen^*. DSC-GRUNet: a lightweight neural network model for multimodal gesture recognition based on depthwise separable convolutions and GRU. Pattern recognization letter. 2025, 190(000):35-44.DOI:10.1016/j.patrec.2025.02.008. 出版年 April 2025 (3区, IF=3.9)

[8]  Xiaoling Chen, Jiashun Zhai, Yuhao Cai, Tengyu Zhang, Yuanyuan Zhang, Shengcui Cheng, Ping Xie^*. Abnormal EEG microstate in post-stroke patients: a feasibility and pilot study. IEEE sensors journal, 2025, 25(11): 19863-19873. DOI: 10.1109/JSEN.2025.3559489 出版年JUNE 1, 2025 (2区, IF=4.8, JCR 1区)

[9] Juan Wang, Yuxin Li, Yu Yang, Zhenhu Liang, Ping Xie, Xiaoli Li, Yina Guo, Shaobao Li, Xiaoling Chen^*. Lateralization disruption and dynamic balance alterations in alzheimer’s disease: impacts on hemispheric interaction and cognitive performance, Human Brain Mapping, 2025, 46(16): e70411. https://doi.org/10.1002/hbm.70411 出版年 NOV 14 2025 IF=3.3 (2区, IF=3.3)

[10] Yingying Hao, Tingting Shen, Jinyuan Zhang, Gengsheng Mao, Ping Xie^*, Xiaoling Chen*. Corticomuscular coupling during upper limb multijoint composite movement: A multichannel EEG and EMG study. IEEE Sensors Journal, 2025(6): 10046-10054. DOI:10.1109/JSEN.2025.3538008. 出版年 MAR 15 2025  (3区, IF=4.5)

[11]  Ping Xie, Dupu Zhang, Qixuan Xiu, Xiening Shao, Yeyang Li, Xiaoling Chen*. KTT: Using a kolmogorov-arnold network-optimized TCN-transformer parallel architecture for hand muscle force prediction. IEEE Sensors Journal, 25. DOI:10.1109/JSEN.2025.3605957. 出版年OCT 15 2025 (3区, IF=4.5)

[12]  Ziqiang Jin, Xiaoling Chen, Zechuan Du, Yi Yuan, Xiaoli Li, Ping Xie. Multiscale coupling between LFP and EMG in mice by low-intensity pulsed ultrasound stimulation with different number of tone-Burst. IEEE transactions on neural systems and rehabilitation engineering, 2025, 33: 1118-1125. DOI10.1109/TNSRE.2024.3492158. 出版年 2025 (2区, IF=5.2)

[13]  Xiaoling Chen, Tianqing Li, Dongmei Liu, Shengcui Cheng, Jiashun Zhai, Juan Wang, Yuanyuan Zhang, Ping Xie^*. Using transcranial magnetic stimulation to improve motor cortical excitability during motor imagery. IEEE sensors journal. 2024, 10(24): 16943-16952. DOI: 10.1109/JSEN.2024.3382884. 出版年MAY 15, 2024 (2区, IF=4.3)

[14]  Xiaoling Chen, Yange Feng, Qingya Chang, Jinxu Yu, Jie Chen, Ping Xie^*. Muscle synergy during wrist movements based on non-negative tensor decomposition. Sensors, 2024, 24(10): 3225. https://doi.org/10.3390/s24103225. 出版年19 May 2024 (3区, IF=3.4)

[15]  Xiaoling Chen, Huaigang Yang, Dong Zhang, Xinfeng Hu, Ping Xie. Hand gesture recognition based on high-density myoelectricity on forearm flexors in humans. Sensors, 2024, 24(12): 3970. https://doi.org/10.3390/s24123970. 出版年Jun 19 2024 (3区, IF=3.4)

[16]  Xiaoling Chen, Tingting Shen, Yingying Hao^*, Jinyuan Zhang, Ping Xie^*. Global synchronization of multi-channel EEG-EMG coupling under precise grip Tasks. Cognitive neurodynamics. 2024, 18(6): 727-3740. DOI: https://doi.org/10.1007/s11571-024-10157-2. 出版年August 06 2024 (3区, IF=3.1)

[17]   Xiaoling Chen, Jinyuan Zhang, Yingying Hao, Ying Liu, Yinan Yang, Ping Xie. Change in EEG-EMG synchronization reflecting abnormal functional corticomuscular coupling following stroke: A pilot study. Medicine in novel technology and devices, 2024, 24: 100335. DOI: https://doi.org/10.1016/j.medntd.2024.100335. 出版年29 October 2024. (卓越期刊)

[18]   Tianqing Li, Dong Zhang, Ying Wang, Shengcui Cheng, Juan Wang, Yuanyuan Zhang, Ping Xie, Xiaoling Chen^*. Research on mental fatigue during long-term motor imagery: a pilot study. Scientific reports, 2024, 14: 18454. (2区, IF=3.8)

[19]   Yingying Hao, Xiaoling Chen^*, Juan Wang, Tengyu Zhang, Haihong Zhao, Yinan Yang, Ping Xie^*. Brain functional alterations of multilayer network after stroke: A case-control study based on EEG signals. IEEE sensors journal, 2024, 24(7): 11386-11395. (2区, IF=4.3)

[20]   Ying Wang, Jingchao Li, Wenhao Hu, QIxuan Xiu, Yingying Hao, Xiaoling Chen^*, Ping Xie^*. Enhancement of functional corticomuscular coupling after functional electrical stimulation in healthy young adults. IEEE Sensors Journal, 2024, 24: 39344-39351.

[21]   Haohao Zhang, Xiaoling Chen, Shuzhen Liu, Zhiqi Mao, Xinguang Yu. TDITI: a time-delay information transfer index algorithm for corticomuscular coupling. Alexandria engineering journal, 2024, 96: 82-92. DOI: https://doi.org/10.1016/j.aej.2024.03.086. 出版年2024 April 8. (2区, TOP, IF=6.2)

[22]  Ping Xie, Ying Wang, Jian Yu, Yan Lv, Shengcui Cheng, Yingying Hao, Jie Chen, Tengyu Zhang, Xiaoling Chen. Abnormal low-frequency corticokinematic coherence in stroke: an electroencephalography and acceleration study. IEEE transactions on neural systems and rehabilitation engineering, 2024, 32: 233-240.  (2区, IF=4.8)

[23]  Ping Xie, Meng Xu, Tao Shen, Jie Chen^*, Guoqian Jiang^*, Junming Xiao, Xiaoling Chen. A channel-fused gated temporal convolutional network for EMG-based gesture recognition. Biomedical signal processing and control, 2024, 95: 106408. (2区, IF=4.9)

[24]  Jinxu Yu, Lei Luo, Wenzhao Zhu, Yongquan Li, Ping Xie, Lijie Zhang. A novel low-pressure robotic glovebased on CT-optimized finger joint kinematic model for long-term rehabilitation of stroke patients. IEEE transactions on neural systems and rehabilitation engineering, 2024, 32: 53-62. DOI: 10.1109/TNSRE.2023.3337827. 出版年2024 Jan 12. (2区, IF=4.8)

[25]  Jinxu Yu, Lijie Zhang, Yihao Du, Xiaoran Wang, Jiahua Yan, Jie Chen, Ping Xie. Exploration and application of a muscle fatigue assessment model based on NMF for multi-muscle synergistic movements. IEEE transactions on neural systems and rehabilitation engineering, 2024, 32: 1725-1734. DOI: 10.1109/TNSRE.2024.3393132. 出版年2024 May 1. (2区, IF=4.8)

[26]  Ping Xie, Zichao Nie, Tengyu Zhang^*, Gongcheng Xu, Aiping Sun, Tiandi Chen, Yan Lv. FNIRS based study of brain network characteristics in children with cerebral palsy during bilateral lower limb movement. Medical physics, 2024, 51(6): 4434-4446. doi: 10.1002/mp.17106. 出版年 2024 Apr 29 (2区, IF=3.2)

[27]  Xiaoling Chen, Xiaojiao Dong, Yange Feng, Yuntao Jiao, Jian Yu, Yan Song, Xinxin Li, Lijie Zhang, Peiguo Hou, and Ping Xie. Muscle activation patterns and muscle synergies reflect different modes of coordination during upper extremity movement, Frontiers in human neuroscience, 2023, 16: 912440. DOI: 10.3389/fnhum.2022.912440. 出版年: JAN 18 2023 (3区, IF=2.9)

[28]  Xiaoling Chen, Yuntao Jiao, Dong Zhang, Ying Wang, Xinyu Wang, Yuqi Zang, Zhenhu Liang*, Ping Xie*. An adaptive spatial filtering method for multi-channel EMG artefact removal during functional electrical stimulation with time-variant parameters. IEEE transactions on neural systems and rehabilitation engineering, 2023, 31(0): 3597-3606. doi:10.1109/tnsre.2023.3311819. 出版年: Sep 2023 (2区, IF=4.9)

[29]  Xiaoling Chen, Ying Liu, Shengcui Cheng, Tingting Shen, Huipeng Gao, Peiguo Hou^*, Ping Xie^*. Composite multiscale coherence and application to functional corticomuscular coupling. Medicine in novel technology and devices, 2023, 19(0):100255-100255. doi:10.1016/j.medntd.2023.100255. 出版年: Nov 2023 (卓越期刊)

[30]  Ping Xie, Ying Wang, Xiaoling Chen*, Yingying Hao, Meng Xu, Lanxiang Liu. A multidimensional visible evaluation model for stroke rehabilitation: a pilot study. IEEE transactions on neural systems and rehabilitation engineering, 2023, 31: 1721-1731. DOI: 10.1109/TNSRE.2023.3245627. 出版年: May 2023 (2区, IF= 4.9)

[31]  Shengcui Cheng, Xiaoling Chen^*, Yuanyuan Zhang, Ying Wang, Xiaoli Li, Ping Xie^*. Multiscale information interaction at local frequency band in functional corticomuscular coupling, Cognitive neurodynamics, 2023, 17(6):1575-1589. doi: 10.1007/s11571-022-09895-y. 出版年: 2023 Nov 24.(2区, IF=3.473)

[32]   Ping Xie^*, Yingying Hao, Xiaoling Chen^*, Ziqiang Jin, Shengcui Cheng, Xin Li, Lanxiang Liu, Yi Yuan and Xiaoli Li. Enhancement of functional corticomuscular coupling after transcranial ultrasound stimulation in mice [J]. Journal of neural engineering, 2022, 19(2): 026014 (10pp). doi: 10.1088/1741-2552/ac5c8b 出版年: APR 1 2022(2区, IF= 5.043)

[33]   Ping Xie, Zihao Wang, Zengyong Li, Ying Wang, Nianwen Wang, Zhenhu Liang, Juan Wang, and Xiaoling Chen^*. Research on rehabilitation training strategies using multimodal virtual scene stimulation. Frontiers in aging neuroscience, 2022, 14: 892178. doi: 10.3389/fnagi.2022.892178 出版年: JUN 30 2022. (2区, IF= 5.702)

[34]   Ping Xie, Qingya Chang, Yuanyuan Zhang*, Xiaojiao Dong, Jinxu Yu, Xiaoling Chen*. Estimation of time-frequency muscle synergy in wrist movements. Entropy, 2022, 24(5), 707. doi: 10.3390/e24050707  出版年: 16 MAY 2022 (3区, IF=2.738)

[35]   Yuanyuan Zhang, Xiaoling Chen^*, Xiaohui Pang, Shengcui Cheng, Xiaoli Li and Ping Xie^*. Multiscale multivariate transfer entropy and application to functional corticocortical coupling, Journal of neural engineering. 2021, 18(4). doi: 10.1088/1741-2552/abd685 出版年: Aug 2021. (当年: 2区, IF=4.141; 目前: 2Q IF=5.043)  

[36]  Ping Xie^*, Xiaohui Pang, Shengcui Cheng, Yuanyuan Zhang, Yinan Yang, Xiaoli Li, Xiaoling Chen^*. Cross-frequency and iso-frequency estimation of functional corticomuscular coupling after stroke[J]. Cognitive neurodynamics, 2021, 15(3): 1-13. DOI: 10.1007/s11571-020-09635-0, 出版年:16 SEP 2020 (当年: ; 目前: 3区, IF=3.925) 

[37]  Xiaoling Chen, Yuanyuan Zhang, Yinan Yang, Xiaoli Li^*, Ping Xie^*. Beta-range cortiomuscular coupling reflects asymmetries in hand movement. IEEE transactions on neural systems and rehabilitation engineering. 2020, 28(11): 2575-2585. (当年: 目前: 2区 Top, IF=3.34) 2Q TOP IF=4.528

[38]  Ping Xie, Shengcui Cheng, Yuanyuan Zhang^*, Zhaojun Liu, Huan Liu, Xiaolling Chen^* and Xiaoli Li. Direct interaction on specific frequency bands in functional corticomuscular coupling. IEEE transactions on biomedical engineering, 2020, 67(3): 762-772. (当年:  目前：2区, IF=4.424) 2Q IF=4.756

[39]  Chunyao Xu, Chao Sun, Guoqian Jiang, Xiaoling Chen, Qun He, Ping Xie. Two-level multi-domain feature extraction on sparse representation for motor imagery classification, Biomedical signal processing and control, 2020, 62. (当年:  目前: 3区, IF=3.137)

[40] Xiaoling Chen, Yuanyuan Zhang, Shengcui Cheng, Ping Xie^*. Transfer spectral entropy and application to functional corticomuscular coupling. IEEE transactions on neural systems and rehabilitation engineering, 2019, 27(5): 1092-1102. (当年: 2区 Top, IF=3.34; 目前：2区 Top, IF=3.34) 2Q TOP IF=4.528

[41]  Xiaoling Chen, Ping Xie^*, Yuanyuan Zhang, Yuling Chen, Fangmei Yang, Litai Zhang, Xiaoling Li^*. Multiscale information transfer in functional corticomuscular coupling estimation following stroke: A pilot study. Frontiers in neurology, 2018, 9: 287. DOI: 10.3389/fneur.2018.00287, 出版年: MAY 1 2018. (当年: 2区, IF=3.508; 现在: 2区, IF=4.086) 

[42]  Xiaoling Chen, Ping Xie^*, Yuanyuan Zhang, Yuling Chen, Shengcui Cheng, Litai Zhang. Abnormal functional corticomuscular coupling after stroke. NeuroImage: Clinical, 2018, 19: 147-159. (当年: 2区, IF=3.869；目前: 2区, IF=4.35) 

[43]  Guiting Hu, Wenjuan Yang, Xiaoling Chen^*, Wenjing Qi, Xinxin Li, Yihao Du, Ping Xie^*. Estimation of time-varying coherence amongst synergistic muscles during wrist movements. Frontiers in neuroscience, 2018, 12: 537-549. (当年: 2区, IF=3.348; 目前: 2Q IF=5.152). 

[44]  Sa Zhou, Ping Xie^*, Xiaoling Chen^*, Yibo Wang, Yuanyuan Zhang, Yihao Du. Optimization of relative parameters in transfer entropy estimation and application to corticomuscular coupling in humans. Journal of neuroscience methods, 2018, 276-285. (当年: 3区, IF=2.668；目前: 3区, IF=2.987)

[45]  Yihao Du, Hao Wang, Shi Qiu, Wenxuan Yao, Ping Xie, Xiaoling Chen. An advanced adaptive control of lower limb rehabilitati on robot. Frontiers in Robotics and AI, 2018, 5:116.

2. 中文论文

[1]  何群, 王煜文, 杜硕, 陈晓玲, 谢平^*. 基于自适应无参经验小波变换和选择集成分类模型的运动想象. 物理学报, 2018, 67(11): 118701-01-118701-12. (当年: 3区, IF=2.214)

[2]  谢平^*, 杨芳梅, 李欣欣, 杨勇, 陈晓玲, 张利泰. 基于变分模态分解-传递熵的脑肌电信号耦合分析. 物理学报, 2016, 65(11): 118701-118701. (SCI检索)

[3]  谢平^*, 杨芳梅, 陈晓玲, 杜义浩, 吴晓光. 基于多尺度传递熵的脑肌电信号耦合分析. 物理学报, 2015, 64(24): 248702-248702. (SCI)

[4]  谢平, 门延帝,甄嘉乐, 邵谢宁, 赵靖, 陈晓玲*. 基于异步稳态视觉诱发电位的脑机融合“第三只手”. 生物医学工程学杂志.

[5]  邵谢宁, 张艺滢, 张栋, 门延帝, 王子龙, 陈晓玲, 谢平. 融合多感官刺激反馈的VR-BCI手功能增强康复系统, 生物医学工程学杂志.

[6] 于金须, 闫建华, 王孝冉, 等. 一种人机共融的手指外骨骼机器人设计与验证[J]. 机械工程学报.（EI，卓越期刊）

[7]  谢平,胡锦城,江国乾,等.基于多任务学习的快速序列视觉呈现脑电图分类[J].仪器仪表学报,2023,44(11):215-223.DOI:10.19650/j.cnki.cjsi.J2311190.

[8] 谢平, 张园园, 张昌梦, 杨远翔, 蔚建, 金子强, 刘兰祥, 陈晓玲^*. 皮层运动区神经元群建模及alpha节律变化机制研究 [J]. 中国生物医学工程学报. 2022. 

[9]  谢平, 蔚建, 张腾宇, 程生翠, 吕岩, 陈晓玲*. 基于脑电和惯性同步分析的神经动力学耦合研究, 数据采集与处理, 2022, 37(4): 736-746.

[10]  何群, 邵丹丹, 王煜文, 张园园, 谢平. 基于多特征卷积神经网路的运动想象脑电信号分析及意图识别. 仪器仪表学报, 2020, 41(01): 138-146.

[11]  杜义浩, 杨文娟, 姚文轩, 齐文靖, 陈晓玲, 谢博多, 谢平^*. 中风康复运动中多通道肌间耦合特性分析. 生物医学工程学杂志, 2019, 36(5): 720-727.

[12]  何群, 杜硕, 王煜文, 陈晓玲, 谢平^*. 基于变分模态分解与深度信念网络的运动想象分类识别研究. 计量学报, 2019, 41(01): 90-99.

[13]  张园园, 邹策, 陈晓玲, 尹永浩，程生翠，谢平. 基于Gabor小波-传递熵的脑-肌电信号同步耦合分析. 生物医学工程学杂志, 2017(6): 850-856.

[14]  谢平*, 李欣欣, 杨春华, 杨芳梅, 陈晓玲, 吴晓光. 基于表面肌电非负矩阵分解与一致性的肌间协同-耦合关系研究. 中国生物医学工程学报, 2017, 036(002): 150-157.

[15]  谢平, 陈迎亚, 张园园, 邹策, 陈晓玲, 张利泰. 基于Gabor小波和格兰杰因果的脑-肌电同步性分析. 中国生物医学工程学报, 2017, 36(01): 28-38.

[16]  谢平, 宋妍, 郭子晖, 陈晓玲, 吴晓光, 苏玉萍, 杜义浩. 中风康复运动中肌肉异常耦合分析. 生物医学工程学杂志, 2016, 33(02): 244-254.

[17]  谢平, 陈迎亚, 郝艳彪, 陈晓玲, 杜义浩, 吴晓光. 基于脑肌电融合的混合脑机接口研究. 中国生物医学工程学报, 2016, 035(001): 20-30.

[18]  谢平, 吴晓光, 牛小辰, 陈晓玲, 郭子晖, 杜义浩. 运动观察与运动想象的皮层节律活动与神经生理机制. 中国科学:生命科学, 2015, 45(07): 665-676.

[19]  牛小辰, 陈晓玲, 陈迎亚, 吴晓光, 杜义浩, 谢平. 基于格兰杰因果性的行走状态下脑肌电同步分析. 中国生物医学工程学报, 2014, 33(06): 696-706.

[20]  谢平, 魏秀利, 杜义浩, 陈晓玲. 基于自排序熵的表面肌电信号特征提取方法. 模式识别与人工智能, 2014, (6): 496-501.

[21]  谢平, 陈晓玲, 苏玉萍, 等. 基于EMD-多尺度熵和ELM的运动想象脑电特征提取和模式识别. 中国生物医学工程学报, 2013, 32(6): 37-44. (1A)

三. 发明专利

    1. 授权专利

[1]  谢平, 常青雅, 程生翠, 陈晓玲, 王新宇, 杨轶楠, 胡晓翎. 一种基于小波和非负张量分解的时频空肌肉协同分析方法.  发明专利, 授权专利号: ZL202111413019.5, 2025.05.16

[2]  谢平, 修启轩, 王颖, 郝莹莹, 扈文豪, 张栋, 于金须, 陈晓玲. 一种基于肌电反馈的康复机械手和电刺激自适应控制方法. 发明专利, 授权专利号: ZL202411937753.5, 2025.09.05

[3]  陈晓玲, 申婷婷, 郝莹莹, 刘影, 翟佳顺, 张园园, 谢平. 一种面向多通道脑肌电耦合分析的多元全局同步指数方法,  发明专利, 授权专利号: ZL202211122284.2, 2024.04.12

[4]  陈晓玲, 张栋, 焦云涛, 李天晴, 杨怀刚, 王颖, 杨轶楠, 谢平. 一种多模态信息可视化功能性电刺激闭环调控系统及方法. 发明专利, 授权专利号: ZL202311748007.7, 2024.07.05

[5]   陈晓玲, 焦云涛, 蔡裕豪, 王新宇, 杨怀刚, 杨轶楠, 尹立勇, 谢平. 面向多通道FES伪迹去除的G-S-G自适应滤波方法. 发明专利, 授权专利号: ZL202210975375.4, 2024.08.24

[6]  陈晓玲, 焦云涛, 王新宇, 于金须, 侯培国, 苏玉萍, 谢平. 融合机械手和功能性电刺激的手功能康复双闭环调控系统. 发明专利, 授权专利号: ZL202111255955.8, 2025.2.14

[7]  赵靖, 王鹏宇, 胡锦城，谢平，陈晓玲，江国乾，李小俚. 多通道高频脑电波耦合的脑网络参数特征提取方法及装置.  发明专利, 授权专利号: ZL202111395249.3, 2024.09.20

[8]  谢平, 申涛, 肖俊明, 王新宇, 江国乾, 杜义浩, 陈晓玲. 基于SeNet和门控时序卷积网络的肌电手势识别方法.  发明专利, 授权专利号: ZL202111228964.8, 2024.02.06[9]     谢平, 程生翠, 张腾宇, 陈晓玲, 李增勇, 郝莹莹, 王子怡, 杨远翔, 蔚建, 李昕, 梁振虎. 一种多模态人体参数同步采集系统及方法. 发明专利, 授权专利号: ZL202111659039.0, 2024.07.26

[10]  谢平, 申涛, 杜义浩, 陈晓玲, 王新宇, 蔚建, 王子豪. 一种肌电数据自动标注方法.  发明专利, 授权专利号: ZL202111071438.5, 2024.05.03

[11]  陈晓玲, 刘影, 刘兰祥, 杨远翔, 胡晓翎, 董晓娇, 王稼鑫, 程生翠, 常清雅, 谢平, 陈杰. 一种基于肌电信号的多层次运动功能评估方法. 发明专利, 授权专利号: ZL202111266151.8, 2023.02.03

[12]  何群, 冯录凤, 江国乾, 谢平, 徐香院, 陈晓玲, 李增勇, 王崑宇. 一种基于多模态信号的运动想象意图识别方法. 发明专利, 授权专利号: ZL202111286589.2, 2023.02.21

[13]  谢平, 王颖, 陈晓玲, 蔚建, 王子豪, 侯培国, 刘兰祥, 苏玉萍. 脑卒中运动功能评价模型建立方法、评价方法及系统, 发明专利, 授权专利号: ZL202110778890.9, 2023.02.24

[14]  陈晓玲, 董晓娇, 侯培国, 刘影, 张园园, 郝莹莹, 王稼鑫, 金子强, 谢平. 一种神经肌肉信息交互模型构建及参数辨识优化方法. 发明专利, 授权专利号: ZL202110357404.6, 2022.01.24

[15]  陈晓玲, 杨远翔, 谢平, 刘影, 董晓娇, 程生翠, 江国乾, 武鑫. 面向轴承故障识别的CNN模型可视化优化方法. 发明专利, 授权专利号: ZL202110351265.6, 2022.2.18

[16]  陈晓玲, 焦云涛, 于金须, 肖俊明, 李焓博, 杨轶楠, 杜义浩, 谢平. 一种可穿戴外骨骼肩部康复辅具.  发明专利, 授权专利号: ZL202111587081.6, 2022.10.25

[17]  谢平, 王颖, 房华蕾, 王子豪, 杜义浩, 陈晓玲, 蔚建. 一种基于神经功能康复主动训练的评估系统及方法.  发明专利, 授权专利号: ZL202011166895.8, 2022.02.11

[18]  谢平, 王子怡, 程生翠, 刘兰祥, 王稼鑫, 杨轶楠, 董晓娇, 李增勇, 陈晓玲. 基于肌电和肌氧信号的运动功能监测管理方法.  发明专利, 授权专利号: ZL202110507436.X, 2022.02.01

[19]  谢平, 蔚建, 王子豪, 王颖, 王新宇, 于金须, 焦云涛, 陈晓玲, 李增勇. 基于肌电和惯性信息的手部训练及评估方法.  发明专利, 授权专利号: ZL202110762225.0, 2022.04.19

[20]  谢平, 付子豪, 杜义浩, 陈晓玲, 冯录凤, 何群. 一种基于脑电特征迁移学习的驾驶状态检测方法及系统. 发明专利, 授权专利号: ZL202011062150.7, 2022.02.11

[21]  谢平, 王子豪, 蔚建, 王颖, 侯培国, 宋子健, 张艺滢, 陈晓玲. 基于运动想象-脑机接口和虚拟现实的康复训练系统及方法. 发明专利, 授权专利号: ZL202110814382.1, 2022.08.19

[22]  谢平, 袁航, 陈晓玲, 张昌梦, 金子强, 程生翠, 张园园. 基于粒子群算法的神经元群模型参数自适应优化方法. 发明专利, 授权专利号: ZL201910622679.0, 2021.05.07

[23]  谢平, 庞晓晖, 陈晓玲, 张园园, 杜义浩, 李小俚, 郝莹莹. 一种基于复杂改进多尺度传递熵的脑肌电耦合分析方法,  发明专利, 授权专利号: ZL202010095062.0, 2021.06.29

[24]  谢平, 张园园, 陈晓玲, 程生翠, 张昌梦, 庞晓晖. 一种基于多尺度多变量传递熵的多通道脑电耦合分析方法,  发明专利, 授权专利号: ZL202010018077.7, 2021.05.28

[25]  谢平, 陈伟, 房华蕾, 张宁宁, 何思凡, 袁航, 陈晓玲, 付子豪. 一种基于多场景诱发的MI-BCI系统及其控制方法,  发明专利, 授权专利号: ZL201910280670.6, 2020.05.15

[26]  谢平, 杨芳梅, 张园园, 陈晓玲, 吴晓光, 张晋铭, 王霄. 基于小波-传递熵的多时频尺度间脑肌电耦合分析方法, 发明专利, 授权专利号: ZL201610362111.6, 2019.5.28.

2. 公示专利

[1]  陈晓玲, 岳宇恒, 张栋, 胡新丰, 吕辉, 马腾, 王子龙, 谢平. 一种面向FES多靶点时序调控的小波增强协同激活方法. 申请日: 2025.01.03; 申请/专利号: CN202510009375.2; 公开/公告日: 2025-04-29; 公开/公告号: CN119905203A

[2]  陈晓玲, 李铭雨, 王鹏, 张栋, 岳宇恒, 张园园, 于金须, 谢平. 基于个体生理基准的多模态脑肌电信号自适应校正方法, 申请日期: 2025-07-11, 申请/专利号: 202510958275.4, 公开/公告日: 2025-10-28, 公开/公告号: CN120837093A

[3]  陈晓玲, 修启轩, 王颖, 张栋, 扈文豪, 谢平.  一种分布式外周肌肉采集-刺激一体化监测及干预系统. 申请日期: 2025-11-20, 申请/专利号: 2025117131200, 公开/公告日: 2025-12-26, 公开/公告号: CN121197673A

[4]  谢平, 何广智, 程生翠, 王子怡, 刘冬梅, 陈晓玲, 张学敏, 张腾宇, 李增勇; 一种基于fNIRS分析的ROI脑区通道优化筛选方法; 申请日: 2023.03.17; 申请/专利号: 202310258046.2; 公开/公告日: 2023-06-23; 公开/公告号: CN116269366A

[5]  陈晓玲, 蔡裕豪, 杨远翔, 侯培国, 翟佳顺, 张园园, 谢平. 一种基于皮层肌肉网络的运动功能重建动态模拟构建方法, 申请日期: 2022-07-29, 申请/专利号: 202210905321.0, 公开/公告日: 2023-01-06, 公开/公告号: CN115346676A

[6]  谢平, 郝莹莹, 陈晓玲, 申婷婷, 王颖, 杨昊翔, 李昕. 一种基于同频和跨频信息交互的多层脑网络模型构建方法. 申请日期: 2022-08-31, 申请/专利号: 202211056710.7, 公开/公告日: 2022-11-11, 公开/公告号: CN115317000A

[7]  谢平, 王新宇, 陈晓玲, 焦云涛, 王颖, 杨轶楠, 杨昊翔, 尹立勇, 赵海红. 王国宾. 基于肌肉激活度与LSTM的功能性电刺激闭环调控方法, 申请日期: 2022-07-20, 申请/专利号: 202210857951.5, 公开/公告日: 2022-10-14, 公开/公告号: CN115177864A

[8]  谢平, 王鹏宇, 郝慎才, 赵靖, 陈晓玲, 江国乾, 李小俚,  李甫. 一种快速序列视觉呈现下的脑电特征提取方法. 申请日期: 2021-05-11, 申请/专利号: 202110513371.X, 公开/公告日: 2021-07-23, 公开/公告号: CN113143291A

[9]  谢平, 李小俚, 郝慎才, 赵靖, 张宁宁, 张昌梦, 江国乾, 何思凡, 杜正, 陈晓玲. 一种基于RSVP脑电特征的弱小目标检测方法及系统. 申请日期: 2019-12-19, 申请/专利号: 201911317967.1, 公开/公告日: 2020-04-10, 公开/公告号: CN110991406A