青婉怡，海南大学生物医学工程学院讲师，海南省高层次人才，IEEE Member。研究兴趣在于精细感觉运动的神经控制机制及其临床转化应用，即通过结合神经工程、运动控制、康复科学等领域，致力于推动新一代神经技术的发展，以改善神经疾患的功能恢复和生活质量。近五年来，已在国内外高水平学术期刊与国际会议上发表论文十余篇，包括Journal of NeuroEngineering and Rehabilitation、Cyborg and Bionic systems、Archives of Physical Medicine and Rehabilitation等，已授权国家发明专利2项，参与撰写专著一部，担任多个SCI期刊及国际学术会议的审稿人。2026年5月起加入海南大学。

 教育经历：

2017.09-2021.06，四川大学，物理治疗，理学学士

2021.09-2026.01，香港理工大学，生物医学工程，工学博士

2025.01-2025.07，哈佛医学院/麻省总院，神经科技与神经恢复中心，访问学者

 主要研究领域：

1. 精细运动控制

2. 感觉编、解码

3. 神经假体（植入式&非侵入式）

 代表性学术论文（第一作者）：

[1] Tan, F.^†; Qing, W.^†; Hu, X. Guided Training Enhances Neuroplasticity and Cortico-Muscular Interactions in Chronic Stroke Rehabilitation. Journal of NeuroEngineering and Rehabilitation 2026. (Q1, 中科院一区, IF=5.2)

[2] Qing, W.; Shi, X.; Zhang, Q.; Peng, L.; He, C.; Wei, Q. Effect of Therapeutic Ultrasound for Neck Pain: A Systematic Review and Meta-Analysis. Archives of Physical Medicine and Rehabilitation 2021. (Q1, 中科院一区, IF=4.0)

[3] Qing, W.; Nam, C.-Y.; Shum, H.M.-H.; Chan, M.K.-L.; Yu, K.-P.; Ng, S.S.-W.; Yang, B.; Hu, X. Long-Term Effects of Mobile Exoneuromusculoskeleton (ENMS)-Assisted Self-Help Telerehabilitation after Stroke. Frontiers in Neuroscience 2024. (Q2, IF=3.2)

[4] Qing, W.; Nam, C.Y.; Shum, H.M.; Chan, M.K.; Yu, K.P.; Ng, S.S.; Yang, B.; Hu, X. The Translation of Mobile-Exoneuromusculoskeleton-Assisted Wrist-Hand Poststroke Telerehabilitation from Laboratory to Clinical Service. Bioengineering 2023. (Q2, IF=4.6)

[5] Qing, W.; Pan, C.; Zhang, J.; Chau, C.Y.; Mui, C.H.; Hu, X. Estimating Upper-extremity Function with Raw Kinematic Trajectory Data after Stroke using End-to-end Machine Learning Approach. In Proceedings of the 46th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2024.

[6] Qing, W.; Song, H.; Lin, L.; Ye, F.; Hu, X. Reorganization of Undirected and Directed Cortico-Muscular Connectivity After Exoneuromusculoskeleton-Assisted Telerehabilitation. In Proceedings of the 17th International Convention on Rehabilitation Engineering and Assistive Technology (i-CREATe) 2024.

[7] Qing, W.; Nam, C.Y.; Shum, H.M.; Chan, M.K.; Yu, K.P.; Ng, S.S.; Yang, B.; Hu, X. Translating Telerehabilitation After Stroke from Laboratory to Clinical Service. Automation in Tele-Neurorehabilitation. CRC Press 2025.

 专利：

[1] 一种基于靶向皮层肌肉神经调控的中风后肢体功能训练系统，2025. （第四发明人）

[2] 一种折叠式蹲厕盖，2020. （第三发明人）

 会议(第一作者)：

[1] Internet-of-Exoneuromusculoskeleton (Io-ENMS)-Assisted Self-help Post-stroke Gait Telerehabilitation with Continuous Progress Management, International Conference on NeuroRehabilitation (ICNR) 2026, Seoul, Korea.

[2] Evaluation of Remote Digital Management in Cyber-Paired Poststroke Telerehabilitation, IEEE EMBS R10 Smart Health Symposium 2025, Hong Kong, China.

[3] Reorganization of Undirected and Directed Cortico-muscular Connectivity after Exoneuromusculoskeleton-assisted Telerehabilitation, 17th International Convention on Rehabilitation Engineering and Assistive Technology (i-CREATe) 2024, Shanghai, China.

[4] Effects of Exoneuromusculoskeleton-Assisted Lower Limb Telerehabilitation on Poststroke Muscular Compensation, 11th World Association for Chinese Biomedical Engineers (WACBE) World Congress on Bioengineering 2024, Hong Kong, China.

[5] Estimating Upper-extremity Function with Raw Kinematic Trajectory Data after Stroke using End-to-end Machine Learning Approach, 46th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2024, Orlando, Florida.

[6] Self-Help Cyber-Paired Telerehabilitation Assisted by an Ankle-Foot Exoneuromusculoskeleton for Patients with Stroke, 18th World Congress of the International Society of Physical and Rehabilitation Medicine (ISPRM) 2024, Sydney, Australia.

[7] Feasibility Study in Students with or without Limited Function under the Integrated Education Mode of Clinical and Home Exercise: A Pilot Study, 7th Asia-Oceanian Conf. of Physical & Rehabilitation Medicine (AOCPRM) 2020, Jeju, Korea.

 获奖：

1. 香港理工大学研究类研究生奖学金 | 2021-2025

2. 香港理工大学博士生国际合作研究奖学金 | 2024

3. 香港理工大学研究生实习计划奖学金 | 2024

4. IEEE EMBC 新生代学者奖 | 2024

5. 香港理工大学顶尖学术会议奖学金 | 2024

6. 四川省优秀毕业生 | 2021

7. 四川省大学生综合素质A级证书 | 2019

8. 第四届中国青年志愿服务大赛，国家级银奖 | 2018

9. 第四届中国“互联网+”大学生创新创业大赛，国家级金奖 | 2018

 招生需求：

对神经科学、感觉运动控制或脑机接口感兴趣的学生，生物医学工程、通信工程、电子信息、医学、生物、计算机及相关背景。

 联系方式：

邮箱：evaqing@hainanu.edu.com

Wanyi Qing (Ph.D.), assistant professor at the School of Biomedical Engineering, Hainan University. She is recognized as a High-Level Talent of Hainan Province and is a member of IEEE. Her research focuses on the neural mechanisms underlying fine sensorimotor control and their translational applications in neurorehabilitation and neurotechnology. By integrating approaches from neural engineering, motor control, rehabilitation science, she aims to advance next-generation neurotechnologies that restore sensorimotor function and improve quality of life for individuals with neurological disorders. Over the past five years, Dr. Qing has published more than ten peer-reviewed articles in leading international journals and conferences, including Journal of NeuroEngineering and Rehabilitation, Archives of Physical Medicine and Rehabilitation, and Cyborg and Bionic Systems. She holds two granted Chinese invention patents, has contributed to an academic book, and serves as a reviewer for multiple SCI-indexed journals and international conferences. Dr. Qing joined the School of Biomedical Engineering at Hainan University in May 2026.

Education

The Hong Kong Polytechnic University, Hong Kong Sep. 2021 - Jan. 2026

PhD in Biomedical Engineering

Harvard Medical School & Massachusetts General Hospital, Boston, MA   Jan.-Jul., 2025

Visiting Scholar in the Center for Neurotechnology and Neurorecovery

West China Clinical Medical School, Sichuan University, China Sep. 2017 - Jun. 2021

B.S. in Physical Therapy

Research Interests

· Neural Control of Movement

· Sensory Encoding and Decoding

· Neuroprosthetics and Neural Interfaces (Implantable and Non-invasive)

Selected Publications (First Authorship)

1. Tan F^†, Qing W^†, Hu X. Guided Training Enhances Neuroplasticity and Cortico-Muscular Interactions in Chronic Stroke Rehabilitation. Journal of NeuroEngineering and Rehabilitation, 2026.

2. Qing W, Shi X, Zhang Q, Peng L, He C, Wei Q. Effect of Therapeutic Ultrasound for Neck Pain: A Systematic Review and Meta-Analysis. Archives of Physical Medicine and Rehabilitation, 2021.

3. Qing W, Nam CY, Shum HMH, Chan MKL, Yu KP, Ng SSW, Yang B, Hu X. Long-Term Effects of Mobile Exoneuromusculoskeleton-Assisted Self-Help Telerehabilitation after Stroke. Frontiers in Neuroscience, 2024.

4. Qing W, Nam CY, Shum HMH, Chan MKL, Yu KP, Ng SSW, Yang B, Hu X. The Translation of Mobile Exoneuromusculoskeleton-Assisted Wrist-Hand Poststroke Telerehabilitation from Laboratory to Clinical Service. Bioengineering, 2023.

5. Qing W, Pan C, Zhang J, Chau CY, Mui CH, Hu X. Estimating Upper-Extremity Function Using Raw Kinematic Trajectory Data After Stroke Through an End-to-End Machine Learning Framework. IEEE EMBC, 2024.

Honors and Awards

· PolyU Research Postgraduate Studentship (2021–2025)

· PolyU PhD Scholars International Collaborative Research Fellowship (2024)

· PolyU Research Student Attachment Programme Fellowship (2024)

· IEEE EMBC NextGen Scholar Award (2024)

· PolyU Top Conference Grant (2024)

· Outstanding Graduate of Sichuan Province (2021)

· National Gold Award, China “Internet+” College Student Innovation and Entrepreneurship Competition (2018)

· National Silver Award, China Youth Volunteer Service Competition (2018)

Opportunities for Prospective Students

Dr. Qing welcomes enthusiastic and self-driven students who are passionate about advancing the frontiers of neurotechnology and neurorehabilitation. Prior experience in programming, signal processing, neuroscience, or biomedical instrumentation is beneficial but not required.

Contact: evaqing@hainanu.edu.cn