舒琳
职称:教授级高级工程师

个人简介

舒琳,博士生导师,华南理工大学教授级高级工程师,未来技术学院副院长,IEEE 高级会员,入选2022、2023、2024年度“全球前2%顶尖科学家”榜单,国家移动超声探测工程技术研究中心副主任,广东省本科高校人工智能人才培养教学指导委员会秘书长,指挥与控制学会智能可穿戴技术专委会常委,人工智能学会智慧医疗专委会委员,研究方向为柔性传感、可穿戴计算、生理心理计算、人机交互,在该领域有十余年科研积累及研发经验,先后为主承担科研项目10余项,发表科研论文70余篇,论文总引用次数逾6000次,高被引论文3篇,参编Springer专著1本,申请/授权专利80余项,其中美国发明专利3项,PCT专利4项,主持开发新型智慧健康类产品7个,荣获日内瓦国际发明奖金奖、银奖,中国发明展铜奖,上海国际发明展金奖。为多个学术期刊担任审稿人:IEEE JBHI, IEEE Sensors Journal,仪器仪表学报等,担任Scientific Reports期刊编委,曾担任IMBioc国际会议Session Chair,Frontiers In Computational Neuroscience客座副主编。指导学生获得互联网+国赛银奖1项,挑战杯广东省特等奖1项、一等奖1项,研电赛全国一等奖3项、二等奖3项,荣获广东省教学成果二等奖。

联系邮箱:shul@scut.edu.cn

Shu Lin, professor of engineering at South China University of Technology, vice dean of the School of Future Technology, selected for the Top 2% of Global Scientists list in 2022,23 and 24, deputy director of the National Mobile Ultrasound Detection Engineering Technology Research Center, Secretary General of the Teaching Guidance Committee for Artificial Intelligence Talent Cultivation in Undergraduate Universities in Guangdong Province, member of the Smart Medical Special Committee of the Artificial Intelligence Society, technical director of the Guangdong Human Data Science and Engineering Technology Research Center, with research directions in flexible sensing, wearable computing, virtual reality, physiological and psychological computing, and human-computer interaction. She has more than ten years of scientific research accumulation and development experience in this field, has undertaken more than 10 scientific research projects, published more than 70 scientific research papers, with a total citation of over 6000 times and 3 highly cited papers. She also participated in one Springer monograph and applied for/granted patents. More than 80 patents, including 3 US invention patents, 4 PCT patents, led the development of 7 new smart health products, and won the gold and silver awards at the Geneva International Invention Award, the bronze award at the China Invention Exhibition, and the gold award at the Shanghai International Invention Exhibition. Served as a reviewer for multiple academic journals: IEEE JBHI, IEEE Sensors Journal, I have served as an editorial board member for Scientific Reports journals, including the Journal of Instruments and Meters. I have also served as the Session Chair for the IMBioc International Conference and the Visiting Vice Editor of Frontiers In Computational Neuroscience. Instructed students to win one silver medal of Internet plus International Games, one special prize and one first prize of the Challenge Cup in Guangdong Province, three first prizes and three second prizes of the National Research Electronics Competition, and won the second prize of teaching achievements in Guangdong Province.

教育背景

2001.09-2005.06,华南理工大学,信息工程专业,学士

2005.09-2008.06,华南理工大学,通信与信息系统,硕士

2008.09-2011.06,香港理工大学,研究方向:柔性传感、穿戴式电子,博士

工作经历

2022至今,华南理工大学,教授级高级工程师

2017-2022,华南理工大学,高级工程师

2015-2017,香港安润普有限公司,首席科学家、技术开发部门总监

2011-2015,香港理工大学 ,助理研究员、副研究员、博士后研究员、研究员

承担项目

1.声光电数智产品联合开发,企业联合实验室项目,项目时间:1/2023-12/2027

2.多源信息融合的心肺功能评测康复关键技术及有效集成研究,科技部重大专项课题,项目时间:12/2022-11/2025

3.基于微电流刺激的可穿戴动觉/压觉复合渲染技术研究,中国电子学会-腾讯Robotics X犀牛鸟专项研究计划,项目时间: 1/1/2023–31/12/2023

4.基于新型柔性干式电极的穿戴式脑电监测研究,广东省自然科学基金项目,项目时间: 1/1/2017–31/12/2020

5.省级青年拔尖人才项目,广东省项目,项目时间: 1/1/2018–31/12/2022

6.柔性可穿戴脑电信号感知器件关键技术研究,广州市科技计划项目,4/2020-3/2022

7.人体数据科学及类脑感知重大创新科普教育平台,广东省科技计划项目,1/1/2020-31/12/2020

8.基于智能手表的连续血压监测技术研究,企业委托开发项目,项目时间:1/10/2020-30/9/2022

9.基于柔性织物执行器阵列微电流刺激的虚拟触觉反馈研究,中国电子学会-腾讯Robotics X犀牛鸟专项研究计划,项目时间: 1/8/2020–31/7/2021

所授课程

《工程导论》

《电子系统综合设计》

Wearable systems

《交互设计》

《人工智能系统综合设计》

标志性成果

论文

1.K Wang, B Feng, F Zhou, C Zhong, J Qiao, J Luo, H Yao, J Wang, L Shu*,QRS Complexes Detection Using UNet-BiLSTM Model Combined With Adaptive Post-Processing for Multi-Lead Wearable ECG Smart T-Shirt System,IEEE Internet of Things Journal, 2025 (SCI JCRQ1,IF 8.2)

2.Y Zhong, Z Yan, Y Xie, S Wu, H Zhang, L Shu*, P Zhou, MSSDA: Multi-Sub-Source Domain Adaptation for Diabetic Foot Neuropathy Recognition, AAAI 2025 (CCF A)

3.Z Song, J Ou, S Wu, L Shu*, Q Fu, X Xu, Wearable fall risk assessment by discriminating recessive weak foot individual, Journal of NeuroEngineering and Rehabilitation 22 (1), 64 2025 (SCI JCRQ1,IF 5.2) 

4.S Li, H Yao, R Peng, Y Ma, B Zhang, Z Zhao, J Zhang, S Chen, S Wu, L Shu* , Psychological and physiological computing based on multi-dimensional foot information, Artificial Intelligence Review 58 (5), 136, 2025(SCI JCRQ1,IF10.7) 

5.G Li, S Li, J Xie, Z Zhang, J Zou, C Yang, L He, Q Zeng, L Shu*, G Huang, Identifying changes in dynamic plantar pressure associated with radiological knee osteoarthritis based on machine learning and wearable devicesm, Journal of NeuroEngineering and Rehabilitation 21 (1), 1-10,2024 (SCI JCRQ1,IF 5.2) 

6.Y Liu, Z Xiang, Z Yan, J Jin, L Shu*, L Zhang, X Xu, CEEMDAN fuzzy entropy based fatigue driving detection using single-channel EEG, Biomedical Signal Processing and Control 95, 106460,2024 (SCI JCRQ1,IF 4.9) 

7.J Wei, Z Zhang, L Chen, Y Zhang, Y Gao, A Shahzad, Z Tao, Q Ma, Lin Shu*, Xiangmin Xu, Qianqian Yu, LinGe, WangFlexible Piezoresistive Sensors Based on PPy Granule-Anchored Multilayer Fibrous Membranes with a Wide Operating Range and High Sensitivity, ACS Applied Materials & Interfaces 16 (15), 19421-19431,2024 (SCI JCRQ1,IF 8.3封面文章)

8.X Chen, Z Zhang, L Shu*, X Tao, X Xu,A Novel Double-sided Fabric Strain Sensor Array Fabricated with a Facile and Cost-effective Process, Sensors and Actuators A: Physical, 115208, 2024 (SCI JCR Q1,IF4.1)

9.S Wu, L Shu*, Z Song, X Xu, SFDA: domain adaptation with source subject fusion based on multi-source and single-target fall risk assessment, IEEE transactions on neural systems and rehabilitation engineering, 2023 (SCI JCR Q1,IF4.8)

10.Z Zhang, X Chen, L Shu*, X Xu, Adaptive readout approaches of resistive sensor array for wearable electronics applications, Measurement 221, 113524,2023 (SCI JCR Q1,IF5.2)

11.Y Yan, J Ou, H Shi, C Sun, L Shen, Z Song, L Shu, Z Chen, Plantar pressure and falling risk in older individuals: a cross-sectional study, Journal of foot and ankle research 16 (1), 14,2023 (SCI JCR Q1,IF2.5)

12.Xiaobin Chen, Fei Wang, Lin Shu*, Xu, Xiangmin, Xiaoming Tao, Lei Wei, Xiangmin Xu, Qing Zeng, Guozhi Huang,A Single-material-printed, Low-cost design for a Carbon-based fabric strain sensor, Materials & Design, Volume 221,2022 (SCI JCRQ1,IF 9.417)

13.Zhen Song , Jianlin Ou , Shu Lin* , Guohua Hu , Shibin Wu , Xiangmin Xu , Zhuoming Chen, Fall Risk Assessment for the Elderly Based on Weak Foot Features of Wearable Plantar Pressure,IEEE Transactions on Neural Systems & Rehabilitation Engineering,2022 (SCI JCRQ1,IF:4.8)

14.Jinyu Li; Haoqiang Hua; Zhihui Xu; Lin Shu*,Xiangmin Xu; Feng Kuang; Shibin Wu,Computers in Biology and Medicine, 2022 (SCI JCRQ1,IF7)

15.Jiayu, H., Jianlin, O., & Lin, S*. (2022). A new approach for daily life Blood-Pressure estimation using smart watch. Biomedical Signal Processing and Control, 75(1). (SCI JCRQ1,IF:4.9)

16.Shibin, W., Jianlin, O., & Lin, S*. (2022). MhNet: Multi-scale spatio-temporal hierarchical network for real-time wearable fall risk assessment of the elderly. Computers in Biology and Medicine, 144. (SCI JCRQ1,IF7)

17.D. Wang, J. Ouyang, P. Zhou, J. Yan, L. Shu*, X. Xu,A Novel Low-Cost Wireless Footwear System for Monitoring Diabetic Foot Patients, IEEE Transactions on Biomedical Circuits and Systems,2020 (SCI JCRQ2,IF:3.8)

18.D. Liao, L. Shu,* GD Liang, et al,“Design and Evaluation of Affective Virtual Reality System Based on Multimodal Physiological Signals and Self-Assessment Manikin”, IEEE Journal of Electromagnetics, RF, and Microwaves in Medicine and Biology, 2020,4(3): 216-24(SCI JCRQ2,IF:3)

19.JD Shi, S Liu, LS Zhang, B Yang, L Shu, Y Yang, M Ren, Y Wang, JW Chen, W Chen, Y Choi, XM Tao, Smart Textile-Integrated Microelectronic Systems for Wearable Applications, Advanced Materials, 2019,1901958. (JCRQ1, IF 27.4,Citations: 561,高被引) 

20.L. Shu, T. Xu and X. Xu, Multilayer Sweat-absorbable Textile Electrode for EEG Measurement in Forehead Site, IEEE Sensors Journal,2019,19(15):5995-6005 (JCRQ1, IF 4.3)

21.L. Shu, J. Xie, et al. A Review of Emotion Recognition Using Physiological Signals. Sensors 18.7(2018):2074-.(JCR二区,Citations:814,高被引)

22.W. Zeng, L. Shu, Q. Li, S. Chen, F. Wang, X.M. Tao, “Fiber-based Wearable Electronics: A Review of Materials, Fabrication, Devices and Applications”, Advanced Materials, 2014. (IF:  27.4, Citations:2032,高被引)

23.L. Shu, T. Hua, Y.Y. Wang, Q. Li, David D. Feng, X.M. Tao, “In-Shoe Plantar Pressure Measurement and Analysis System based on Fabric Pressure Sensing Array”, IEEE Transactions on Information Technology in Biomedicine (retitled as: IEEE Journal of Biomedical and Health Informatics), vol. 14, no. 3, pp.767-775, 2010. (IF: 3.451, Citations:456)

授权国际专利

1.一种虚拟现实触觉反馈交互系统,17/263,348,美国专利授权

2.一种新型吸汗织物电极,16/490,505,美国专利授权

3.一种新型吸汗织物电极,WO/2019/000808

4.一种虚拟现实触觉反馈交互系统,WO/2020/019552

5.一种基于可穿戴手环的情绪识别系统及方法,WO/2020/119245

6.一种情绪刺激虚拟现实场景自动生成系统及方法,WO/2020/151273

授权中国专利

1.一种基于可穿戴手环的情绪识别系统及方法,CN109620262B

2.基于脑电信号判断大脑专注放松状态的方法,CN110123314B

3.一种移动端表情趣图生成的系统,CN109308725B

4.一种儿童安全手表的传感器分级智能调度系统及方法,CN109953748B

5.基于深度学习的情感虚拟现实场景评估方法,CN109871124B

6.一种基于眼电信号监测眼球位置坐标的方法,CN110123318B

7.基于弱足COP特征的步态特征提取方法及跌倒风险判别系统,CN113057627B

8.一种基于多模态信息融合的智能家居控制方法及其系统,CN112054946B

9.用于虚拟现实头戴式显示下的眼动信号处理方法及可穿戴设备,CN111427150B 

10.一种光电容积脉搏波压力识别方法及系统,CN112998652B

11.基于同种导电材料的柔性应变传感器及其制备方法,CN113063342B

12.一种基于ECG信号和PPG信号的血压监测系统和方法,CN113749630B

13.一种基于肌电评估的虚拟力反馈交互系统及方法,CN111722709B

14.一种采集脑电信号的柔性干式电极及其制备方法,CN107374622B

15.基于微电流刺激的虚拟力反馈评估和调整系统与方法,CN112099625B

16.一种基于双深度神经网络的图片类别自动标注方法及系统,CN110533074B

17.一种根据性别动态调整特征的人脸愉悦度估计方法,CN110555379B

18.基于深度神经网络的模糊图片清晰化处理方法及系统,CN110223245B

19.一种基于智能手表的人身安全检测系统及方法,CN109407504B

20.一种虚拟现实触觉反馈交互系统,CN208848165U

21.一种生物电信号柔性干式电极,CN208709880U

22.一种新型吸汗织物电极,CN208371785U

23.用于糖尿病患者足底压力监测及减压的糖尿病鞋系统,CN208144550U

24.一种用于面参数探测的传感器装置,CN207832242U

25.一种柔性干式电极,CN207821815U

26.用于采集脑电信号的柔性半干式多层结构电极,CN209269693U

27.一种新型柔性印刷贴面电极阵列,CN209107334U

28.一种心电检测脚环,CN209091373U

29.用于采集脑电信号的柔性半干式多层结构电极,CN209269693U