叶士青 职称：客座研究员 电子邮件：yeshiqing@fudan.edu.cn 办公地点：遗传楼333室

复旦大学信息与工程学院教授，南加州大学计算机科学博士。研究兴趣是将互动技术、虚拟现实、生物传感技术和严肃游戏等应用于跨学科研究领域，诸如神经运动康复、认知评估训练、手术模拟、数学学习和精神心理疾病的治疗等，并利用机器学习来构建数据驱动的临床诊断或评估方法。

研究方向：

1. 虚拟现实

2. 神经运动康复

3. 神经认知训练

4. 数字学习
    

学术任职：

International Journal of Ad Hoc and Ubiquitous Computing期刊审稿
IEEE Transactions on Multimedia期刊审稿
IEEE Transactions on Information Technology in Biomedicine期刊审稿
International Journal of Human Computer Interaction期刊审稿
Journal of Neuroscience and Neuroengineering期刊审稿
IEEE Transactions on Mechatronics期刊审稿
IEEE Journal of Biomedical and Health Informatics期刊审稿
Journal of Educational Technology and Society期刊审稿
Workshop on Virtual Reality for Medical Application, 2013组委会主席
IEEE International Conference on Multimedia & Expo, 2010~2014会议 TPC Member
International Conference on Parallel and Distributed Systems, 2011会议 TPC Member
Computer Graphics Workshop, July 15-16, 2010 HsinChu, 2010~2013会议 TPC Member
Wireless, Ad Hoc and Sensor Networks Workshop, 2013会议 TPC Member
Conference on Technologies and Applications of Artificial Intelligence, 2013会议 TPC Member

获奖情况：

• 2011----Best Paper Award, Global Chinese Conference on Computers in Education

• 2014----Best Paper Award, International Conference on Mechanical, Electronics and Computer Engineering

• 2011----Best Paper Award, International Conference on Human-Computer Interaction

授课情况：

• 研究生课程：    集成式行为刺激与传感系统

代表性论文或专著：
1.PLOS ONE，Neuronal correlates of virtual reality based passive sensory P300，2014，9(11)，
2.Journal of NeuroEngineering and Rehabilitation，Intervention to enhance skilled arm and hand movements after stroke: A feasibility study using a new virtual reality system，2007，，
3.Intelligent Systems，Intelligent Frozen Shoulder Rehabilitation，May-June 2014，29，22-28
4.Computer Methods and Programs in Biomedicine，Evaluation of a haptics-based virtual reality temporal bone simulator for anatomy and surgery training，2014，113，674-681
5.British Journal of Educational Technology，Motion controllers for learners to manipulate and interact with 3D objects for mental rotation training，2014，45，666–675
6.NeuroRehabilitation，A virtual reality system integrated with robot-assisted haptics to simulate pinch-grip task: motor ingredients for the assessment in chronic stroke，2014 Jan 1，35(3)，435-49
7.Restorative and Neurology and Neuroscience，Inhibitory Repetitive Transcranial Magnetic Stimulation of the Contralesional Premotor and Primary Motor Cortices Facilitate Poststroke Motor Recovery，2014，32(6)，825-35
8.Technology and Health Care，Interactive 3-Dimensional Virtual Reality Rehabilitation for Patients with Chronic Imbalance and Vestibular Dysfunction，2014，22(6)，915-21
9.Sensors，Depth-Sensor-Based Monitoring of Therapeutic Exercises，2015，15，25628-25647
10.Computer Methods and Programs in Biomedicine，Machine Learning-based Assessment Tool for Imbalance and Vestibular Dysfunction with Virtual Reality Rehabilitation System，2014，，