王文锦，2021年9月全职回国加入南方科技大学生物医学工程系，担任副教授、博士生导师，入选国家高层次人才计划（海外优青）。回国前担任荷兰飞利浦研究院（总部）研究员，荷兰埃因霍温理工大学助理教授。多年致力于智能医疗监护技术的研究及转化工作，具有丰富的医工交叉产学研经验，具体研究方向为基于视频的非接触健康感知与医疗监护。已发表了包括IEEE-TBME、IEEE-JBHI、IEEE-IOT等重要SCI期刊、国际会议论文80余篇，入选斯坦福全球前2%顶尖科学家榜单，获2022年度IEEE-EMBS七年最佳期刊论文奖；编撰爱思唯尔英文专著1部；授权国际发明专利14件，中国发明专利2件；主持4件产品的研发落地，实现海内外量产销售（1件获亚马逊销冠）。在海外工作期间代表飞利浦主持荷兰国家级项目ZonMw的IMDI-DCVA专项（约623万人民币）；回国后作为项目负责人，主持工信部人工智能医疗器械揭榜挂帅项目（获生命监护与支持方向全国第一），科技部国家重点研发计划（青年科学家），国家自然科学基金原创探索计划，国家自然科学基金面上项目，深圳市孔雀团队重大技术攻关项目（高校负责人），广东省、深圳市自然科学基金面上项目，等。相关研究成果获人民日报、南方都市报、深圳特区报等中央、省市权威媒体报道。创办了领域内国际知名的CVPM Workshop，担任IET Healthcare Technology Letters副主编，IEEE-JBHI客座副主编，常年应邀在国际顶级学术会议CVPR/ICCV举办Workshop（CVPM 2018-2024）和Tutorial。

       课题组和多家海外知名院校、国内三甲医院建立了紧密的科研合作关系。积极响应国家需求和市场需求，研究、开发、落地新一代非接触健康监护技术。采用无线传感器非接触地感知人体医学信号并用于健康监护和临床诊断。可广泛应用于多个医疗场景（如新生儿/成人重症监护、睡眠监护、运动康复、医学影像门控等）和民用领域（如月子中心、养老院、康复中心、远程医疗等），赋能我国“十四五”规划的智慧医疗建设。目前课题组和深圳市第三人民医院全力打造“远程居家ICU医养一体化系统”，已装备多家养老院及老年患者家庭，报备市委领导和卫健委在全市进行推广。

教育背景：

2013 - 2017 荷兰埃因霍温理工大学 电子工程 博士

2011 - 2013 荷兰阿姆斯特丹大学  人工智能 硕士 （全额奖学金）

2008 – 2011 东北大学   生物医学工程 学士 （尖子班）

工作经历：

2021 - 至今 南方科技大学生物医学工程系  副教授

2019 - 2021   荷兰埃因霍温理工大学  助理教授

2017 - 2021   荷兰飞利浦研究院（总部）  研究员

荣誉及奖励：

2022年 IEEE-EMBS七年最佳期刊论文奖

2013年  荷兰阿姆斯特丹大学全额奖学金（Amsterdam Merit Scholarship）

2012年  荷兰阿姆斯特丹大学全额奖学金（Amsterdam Merit Scholarship）

2011年  美国大学生数学建模竞赛一等奖（MCM）

授权专利：

1. W. Wang, High dynamic range vital signs extraction, 2021-4-22, 欧洲, EP 19203141.7, WO/2021/074036

2. W. Verkruijsse, W. Wang, A. Moco, N. Lambdert, and M. E. Mena Benito, Device, system and method for determining oxygen saturation of a subject, 2021-6-24, 欧洲, EP 19217847.3, WO/2021/122122

3. W. Wang, Device, method and system for registering a first image frame and a second image frame, 2021-1-7, 欧洲, EP 19183802.8, WO/2021/001340

4. J. Muehlsteff, R. Wijshoff, and W. Wang, Blood pressure detection, 2022-12-8, 欧洲, EP 21177428.6, WO/2022/253621

5. S. Weiss, W. Wang, A. G. Tormo, J. H. Wuelbern, and A. C. den Brinker, Camera-based vital sign detection, 2023-2-9, 欧洲, EP 21189063.7, WO/2023/011981

6. G. de Haan, and W. Wang, Device, system and method for image segmentation of an image of a scene including a subject, 2022-4-6, 欧洲, EP 3809950 B1

7. G. de Haan, A. C. den Brinker, and W. Wang, Device, system and method for obtaining a vital signal of a subject, 2021-10-26, 美国, US 11154209 B2

8. W. Wang, and G. de Haan, Device, system and method for skin detection, 2020-10-27, 美国, US 10818010 B2

9. A. C. den Brinker, W. Wang, and G. de Haan, Device, system and method for pulsatility detection, 2020-4-8, 欧洲, EP 3414739 B1

10. A. C. den Brinker, G. de Haan, and W. Wang, Device, system and method for determining a physiological parameter of a subject, 2019-2-13, 欧洲, EP 3440991 A1

11. G. de Haan, and W. Wang, Determining a pulse signal from concatenated video sub-sequences generated from a video sequence, 2019-5-14, 美国, US 10290104 B2

12. W. Wang, and G. de Haan, Identifying living skin tissue in a video sequence using color and spatial similarities, 2019-3-26, 美国, US 10242441 B2

13. W. Wang, and G. de Haan, Identifying living skin tissue in a video sequence with scaling for size or resolution, 2018-5-29, 美国, US 9980658 B2

14. G. de Haan, A. C. den Brinker, and W. Wang, 被検体のバイタルサインを得るためのデバイス、システム、方法、及びコンピュータプログラム, 2022-5-12, 日本, JP 7065845 B2

15. 姜红; 王文锦; 一种新型基于ECG和PPG血压变化计算系统, 2022-2-1, 中国, ZL 201910272066. 9

16. 姜红;王文锦;刘明;詹琪;基于热成像传感器的体温和呼吸率提取方法及应用, 2022-6-21, 中国, ZL202110111208. 0

代表性论文：

1. Wenjin Wang; Xuyu Wang; Contactless Vital Signs Monitoring, Elsevier (DOI: 10.1016/C2019 -0-04343-9), 2021 (学术专著)

2. Wenjin Wang; Huaijing Shu; Hongzhou Lu; Ming Xu; Xiangyang Ji;  “Multispectral Depolarization based Living-skin Detection: A New Measurement Principle”, IEEE Transactions on Biomedical Engineering, 2024. （期刊论文）

3. Yonglong Ye; Liping Pan; Dongfang Yu; Dongfeng Gu; Hongzhou Lu; Wenjin Wang; "Notch RGB-Camera based SpO2 Estimation: A Clinical Trial in Neonatal Intensive Care Unit", Biomedical Optics Express, 2023. （期刊论文）

4. Bin Huang；Shen Hu; Zimeng Liu; Chun-Liang Lin; Junfeng Su; Changchen Zhao; Li Wang; Wenjin Wang; "Challenges and Prospects of Visual Contactless Physiological Monitoring in Clinical Study",  NPJ Digital Medicine, 2023. （期刊论文）

5. Guanghang Liao; Hongzhou Lu; Caifeng Shan; Wenjin Wang; "Plethysmographic Waveform Features and Hemodynamic Features for Camera-based Blood Pressure Estimation",  IEEE Transactions on Instrumentation and Measurement, 2023. (期刊论文)

6. Dongmin Huang; Jia Huang; Kun Qiao; Nanshan Zhong; Hongzhou Lu; Wenjin Wang; "Deep learning-based lung sound analysis for intelligent stethoscope", Springer Nature Military Medical Research, 10(40), 2023. （期刊论文）

7. Haowen Wang; Jia Huang; Guowei Wang; Hongzhou Lu; Wenjin Wang; "Contactless Patient Care using Hospital IoT: CCTV Camera based Physiological Monitoring in ICU", IEEE Internet of Things Journal, 2023. （期刊论文） 

8. Dingliang Wang; Xuezhi Yang; Jun Wu; Wenjin Wang; Personalized Modeling of Blood Pressure with Photoplethysmography: An Error-feedback Incremental Support Vector Regression Model, IEEE Internet of Things Journal, 2023. (期刊论文)  

9. Dongmin Huang; Lingwei Wang; Wenjin Wang; A Multi-center Clinical Trial for Wireless Stethoscope-based Diagnosis and Prognosis of Children Community-acquired Pneumonia, IEEE Transactions on Biomedical Engineering, 2023, 70(7): 2215-2226. (期刊论文) 

10. Siyuan Qiu; Wenjin Wang; Hailong Jiao; A Lightweight Deep Learning Model for Real-Time Epileptic Seizure Detection, IEEE Journal of Biomedical and Health Informatics, 2023, 27(4): 1845-1856. (期刊论文) 

11. Wenjin Wang; Steffen Weiss; Albertus C. Den Brinker; Jan Hendrik Wuelbern; Albert Garcia i Tormo; Ioannis Pappous; Julien Senegas; Fundamentals of Camera-PPG based Magnetic Resonance Imaging, IEEE Journal of Biomedical and Health Informatics, 2022, 26(9): 4378-4389. (期刊论文) 

12. Wenjin Wang; Albertus C. den Brinker; Modified RGB Cameras for Infrared Remote-PPG, IEEE Transactions on Biomedical Engineering, 2020, 67(10): 2893-2904. (期刊论文) 

13. Wenjin Wang; Albertus C. den Brinker; Gerard de Haan; Discriminative Signatures for Remote-PPG, IEEE Transactions on Biomedical Engineering, 2020, 67(5): 1462-1473. (期刊论文)

14. Wenjin Wang; Albertus C. den Brinker; Gerard de Haan; Single- Element Remote-PPG, IEEE Transactions on Biomedical Engineering, 2019, 66(7): 2032-2043. (期刊论文)

15. Wenjin Wang; Sander Stuijk; Gerard de Haan; Living-Skin Classification via Remote-PPG, IEEE Transactions on Biomedical Engineering, 2017, 64(12): 2781-2792. (期刊论文)

16. Wenjin Wang; Albertus C. den Brinker; Sander Stuijk; Gerard de Haan; Algorithmic Principles of Remote PPG, IEEE Transactions on Biomedical Engineering, 2017, 64(7): 1479-1491. (期刊论文)

17. Wenjin Wang; Sander Stuijk; Gerard de Haan; A Novel Algorithm for Remote Photoplethysmography: Spatial Subspace Rotation, IEEE Transactions on Biomedical Engineering, 2016, 63(9): 1974-1984. (期刊论文)

18. Wenjin Wang; Sander Stuijk; Gerard de Haan; Unsupervised Subject Detection via Remote PPG, IEEE Transactions on Biomedical Engineering, 2015, 62(11): 2629-2637. (期刊论文)

19. Wenjin Wang; Sander Stuijk; Gerard de Haan; Exploiting Spatial Redundancy of Image Sensor for Motion Robust rPPG, IEEE Transactions on Biomedical Engineering, 2015, 62(2): 415-425. (期刊论文)

20. Wenjin Wang; Albertus C. den Brinker; Gerard de Haan; Full video pulse extraction, Biomedical Optics Express, 2018, 9(8): 3898-3914. ( 期刊论文)

21. Wenjin Wang; Albertus C. den Brinker; Sander Stuijk; Gerard de Haan; Amplitude-selective filtering for remote-PPG, Biomedical Optics Express, 2017 , 8(3): 1965-1980. (期刊论文)