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武汉大学动力与机械学院导师教师师资介绍简介-郭朝
本站小编 Free考研考试/2021-07-20
个人简历
一、个人基本情况
姓名:郭朝(Guo Zhao)
学历:工学博士
性别:男 出生年月:1982年6月
职称:副研究员,硕导
电子邮件:guozhao@whu.edu.cn
https://scholar.google.com/citations?user=P49ZTTsAAAAJ&hl=en
二、学习与工作经历
l 受教育经历
l 2007/09-2012/06,上海交通大学,机械电子工程,机器人研究所,工学博士
l 2004/09-2007/06,江苏大学,机械电子工程, 工学硕士
l 2000/09-2004/06,江苏大学,机械设计制造及其自动化,工学学士
l
l 研究工作经历
l 2017/12-至今,武汉大学,动力与机械学院,副研究员,湖北省XXXX
l 2015/12-2017/11,武汉大学,动力与机械学院,讲师,珞珈青年****
l 2012/09-2015/12,新加坡国立大学,工学院生物医学工程系,先进机器人中心,Research Fellow
l 分别在法国巴黎索邦大学,香港中文大学,意大利技术研究院(IIT)等世界知名的机器人研究机构短期访学,并建立国际合作关系
三、主要研究方向
l 康复医疗机器人/外骨骼机器人,可穿戴设备
l 柔性/软体机器人驱动、传感与控制
l 人机交互与人工智能技术
四、主讲课程
《机械设计》,《机器人传感、视觉与控制》,《机器人学》,《自然科学经典导引》
五、学术及主要科研成果
【1】期刊论文 (*为通讯作者)
[1] Pan Yong ping, Guo Zhao*, and Gu Dongbin. Bioinspired Design and Control of Robots with Intrinsic Compliance. Frontiers in Neurorobotics, 2020, 14, 64. (JCR Q2, IF=2.6)
[2] Zhang Qiang, Sun Yang Ding, Qian Wei, Xiao Hui Xiao and Guo Zhao*, “modeling and control of a cable-driven rotary series elastic actuator for upper limb rehabilitation robot”, Frontiers in neurorobotics, 2020 14: 13. doi: 10.3389/fnbot.2020.00013. (JCR Q2, IF=2.6)
[3] Guo Zhao, Sun Jiantao, Ling Jie, Pan Yongping and Xiao Xiaohui, “Robust Trajectory Tracking Control for Variable Stiffness Actuators With Model Perturbations”, Frontiers in neurorobotics, 13:35. doi: 10.3389/fnbot.2019.00035. (JCR Q2, IF=2.6)
[4] Wu Yao, Yao Daojin, Guo Zhao*, and Xiao Xiaohui, “Adaptive stiffness control of passivity-based biped robot on compliant ground using double deep Q network”, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2019, 233(6):2177-2189. (JCR Q2, IF=1.53)
[5] Guo Zhao, Xiao Xiaohui, Yu Haoyong*, “Design and Evaluation of a Robotic Omni-directional Hospital Bed Mover for Patient Transfer”, IEEE Journal of Biomedical and Health Informatics, 2018, 22(6):1775-1785. (JCR Q1, IF=5.2)
[6] Sun Jiantao, Guo Zhao*, Zhang yubin, Xiao Xiaohui, Tan Jianrong, “A novel Design of a Compact Serial Variable Stiffness Actuator (SVSA) Based on an Archimedean Spiral Relocation Mechanism”, IEEE/ASME Transaction on Mechatronics, 2018, 23(5): 2121-2131. (JCR Q1, IF=5.67)
[7] Sun Jiantao, Guo Zhao*, Sun Dingyang, He Siyu, Xiao Xiaohui, “Design, modeling and control of a Compact energy efficient Serial Variable Stiffness Actuator (SVSA-II)”, Mechanism and Machine Theory, 2018, 130: 123-136. (JCR Q1, IF=3.3)
[8] Wu Yao, Yao Daojin, Xiao Xiaohui, and Guo Zhao*, “Robust control of passivity-based biped robot on compliant ground using deep Q network”, Journal of Intelligent & Fuzzy Systems, 2018, 08. (JCR Q2, IF=1.8)
[9] Guo Zhao, Pan Yongping*, Sun Tairen, Zhang yubin, Xiao Xiaohui, “Adaptive Neural Network Control of Serial Variable Stiffness Actuators”, Complexity, 2017, pp.1-9. (JCR Q2, IF=2.46)
[10] Guo Zhao, Bei Racheal, Mun Kyung-Ryoul, Yu Haoyong*, “Experimental evaluation of a novel robotic hospital bed mover,” Applied Ergonomics, 2017, 65.389-397. (JCR Q1, IF=3.1)
[11] Guo Zhao, Pan Yongping, Wee Liang-Boon, Yu Haoyong*, “Design and control of a novel compliant differential shape memory alloy actuator”. Sensors and Actuators A: Physical, 2015, 04(11):1-12. (JCR Q1, IF=2.9)
[12] Guo Zhao, Yu Haoyong, Yin Yuehong*, “Developing a mobile lower limb robotic exoskeleton for gait rehabilitation”. Transactions of ASME-Journal of medical devices, 2014, 8(4). (JCR Q3, IF=0.8)
[13] Guo Zhao, Yin Yuehong*. “A dynamic model of skeletal muscle based on collective behavior of myosin motors-Biomechanics of skeletal muscle based on working mechanism of myosin motors (I)”, Science China-Technological Sciences, 2012, 55(6):1589-1595; (JCR Q1, IF=2.3)
[14] Yin Yuehong*, Guo Zhao, Chen Xing, Fan Yuanjie. “Studies on biomechanics of skeletal muscle based on the working mechanism of myosin motors: An overview”, Science Bulletin, 2012, 57 (35): 4533-4544. (导师一作) (JCR Q1, IF=9.5)
[15] Yin Yuehong*, Guo Zhao. “Collective mechanism of molecular motors and a dynamic mechanical model for sarcomere”, Science China-Technological Sciences, 2011, 54: 2130-2137.; (导师一作) (JCR Q1, IF=2.3)
[16] Guo Zhao, Yin Yuehong*. “Coupling mechanism of multi-force interactions in the myosin molecular motor”, Science Bulletin, 2010, 55 (31):3538-3544; (JCR Q1, IF=9.5)
[17] 周智雍,钱伟,丁加涛,肖晓晖,郭朝*, 基于核化运动基元的外骨骼膝关节步态轨迹在线规划, 机器人,2021. (EI收录)
[18] 孙定阳,沈浩,郭朝*,肖晓晖,绳驱动柔性上肢外骨骼机器人设计与控制,机器人. 2019.06. (EI收录)
[19] 孙剑韬,周江琛,郭朝*,肖晓晖,面向柔性机器人的对称式串联变刚度驱动器设计,华中科技大学学报. 2018.07 (EI收录)
[20] 殷跃红*, 郭朝, 陈幸, 范渊杰. 基于分子马达运行机制的骨骼肌生物力学原理研究进展. 科学通报. 2012,57(30): 2794-2805.
[21] 殷跃红*,郭朝. 分子马达集体运行机制及肌小节动态力学模型. 中国科学:技术科学, 2011, 41(11):1533-1540.
[22] 郭朝, 殷跃红. 肌球蛋白分子马达的多力场耦合机理分析. 科学通报. 2010, 55(27-28):2675-2682.
[23] Ling Jie, Feng Zhao, Ming Min, Guo Zhao, and Xiao Xiaohui*. Signal Transformed Internal Model Control for Non-raster Scanning of Piezo-actuated Nanopositioning Stages. International Journal of Control, Automation and Systems, 2020, 1-11. (JCR Q3, IF=2.73)
[24] Pan Yongping, Guo Zhao, li Xiang, Yu Haoyong*, “Output Feedback Adaptive Neural Control of A compliant Differential SMA Actuator”, IEEE Transactions on Control Systems Technology, 2017, 25 (6), 2202-2210. (JCR Q1, IF=5.3)
[25] Chen Gong, Qi Peng, Guo Zhao, and Yu Haoyong*, “Gait-Event-Based Synchronization Method for Gait Rehabilitation Robots via a Bio-inspired Adaptive Oscillator”, IEEE Transactions on Biomedical Engineering, 2017, 64 (6):1345-1356. (JCR Q1, IF= 4.424)
[26] Mun Kyung-Ryoul, Lim Su Bin, Guo Zhao, Yu Haoyong*, “Biomechanical Effects of Body Weight Support with a Novel Robotic Walker for Over-Ground Gait Rehabilitation”, Medical & Biological Engineering & Computing, 2017, 55:315-326. (JCR Q2, IF=2.0)
[27] Mun Kyung-Ryoul, Yeo Brandon Bao Sheng, Guo Zhao, Chung Soon Cheol, Yu Haoyong*, “Resistance training using a novel robotic walker for over-ground gait rehabilitation: a preliminary study on healthy subjects”, Medical & Biological Engineering & Computing, 2017, 55(11): 1873-1881. (JCR Q2, IF=2.0)
[28] Mun, Kyung-Ryoul, Guo Zhao, Yu Haoyong*, “Restriction of pelvic lateral and rotational motions alters lower limb kinematics and muscle activation pattern during over-ground walking”, Medical & Biological Engineering & Computing, 2016.1-9. (JCR Q2, IF=2.0)
[29] Chen Gong, Qi Peng, Guo Zhao, Yu Haoyong, “Mechanical Design and Evaluation of a Compact Portable Knee-Ankle-Foot Robot for Gait Rehabilitation,” Mechanism and Machine Theory, 2016,103:51-64. (JCR Q1, IF=3.3)
[30] Peng Yuxin, Cao Jie, Guo Zhao, Yu Haoyong*, “A linear actuator for precision positioning of dual objects”, Smart Material and Structure, 2015, 24(12):1-9. (JCR Q1, IF=3.6)
[31] Yu Haoyong, Chen Gong, Huang Sunan, Pan Yongping, and Guo Zhao, “Human-Robot Interaction Control of Rehabilitation Robots with Series Elastic Actuators”, IEEE Transactions on Robotics, 2015, 31(5):1089-1100. (JCR Q1, IF=6.1)
[32] Chen gong, Chan Chow Khuen, Guo Zhao, & Yu Haoyong*, “A Review on Lower Extremity Assistive Robotic Exoskeleton in Rehabilitation Therapy”, Critical Reviews? in Biomedical Engineering, 2013,41(4-5). 343-363. (EI收录)
[33] Fan Yuanjie, Guo Zhao, Yin Yuehong*. “SEMG-Based Neuro-Fuzzy controller for a parallel ankle exoskeleton with proprioception”, International Journal of Robotics and Automation, 2011, 26 (4): 450-460. (JCR Q4, IF=1.0)
【会议论文】
[1] Weihao Zhao, Jiachen Wang, Wei Qian, Xiaohui Xiao and Zhao Guo*, Design of a Compliant Upper-Limb Rehabilitation Exoskeleton based on Novel Series Elastic Actuators, 2021 IEEE/ASME International Conference on Advanced Intelligent Mechatronics, (EI会议收录)
[2] Letian Ai, Xikai Men, Tianlin Zhou, Xiaohui Xiao and Zhao Guo*, Design and Control of a Cable-Driven Series Elastic Actuator for Exoskeleton, 2021 IEEE 4th International Conference on Intelligent Autonomous Systems (EI会议收录)
[3] Zhao Guo, Jiantao Sun, Jie Ling, Tairen Sun, Yongping Pan, and Xiaohui Xiao, Robust Control of a Serial Variable Stiffness Actuator Based on Nonlinear Disturbance Observer (NDOB), 2018 IEEE International Conference on Advanced Robotics and Mechatronics (ICARM) (Best Conference Paper Finalist) (EI会议收录)
[4] Sun Jiantao, Zhang yubin, Zhang cong, Guo Zhao*, Xiao Xiaohui. Mechanical design of a compact novel variable stiffness actuator based on level mechanism, 2017 IEEE International Conference on Robotics and Automation (ICRA). Singapore. (EI会议收录)
[5] Zhang Qiang, Xu Benyan, Guo Zhao*, Xiao Xiaohui, Design and Modeling of a Compact Rotary Series Elastic Actuator for an Elbow Rehabilitation Robot, International Conference on Intelligent Robotics and Applications, 2017, 44-56. (EI会议收录)
[6] Guo Zhao, Yu Haoyong*. Development of a Novel Robotic Omni-directional Hospital Bed Mover for Patient Transfer. IEEE Workshop on Advanced Robotics and its Social Impacts (ARSO), 2016, Shanghai, China. (EI会议收录)
[7] Guo Zhao, Yu Haoyong*, Wee Liang-Boon. Design of a novel compliant differential shape memory alloy actuator. IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), 2013, Tokyo, Japan. (EI会议收录)
[8] Guo Zhao, Fan Yuanjie, Zhang Jianjun, Yu Haoyong, Yin Yuehong*, “A new 4M model-based human-machine interface for lower extremity exoskeleton robot”. International Conference on Intelligent Robotics and Applications, 2012. 7506: 545-554. (EI会议收录)
[9] Ding, Jiatao, Chengxu Zhou, Zhao Guo, Xiaohui Xiao, and Nikos Tsagarakis. "Versatile reactive bipedal locomotion planning through hierarchical optimization." In 2019 International Conference on Robotics and Automation (ICRA), pp. 256-262. IEEE, 2019. (EI会议收录)
[10] Deng, Dongning, Tairen Sun, Zhao Guo, and Yongping Pan. "Singular Perturbation-based Variable Impedance Control of Robots with Series Elastic Actuators." In 2019 Chinese Control Conference (CCC), pp. 4397-4402. IEEE, 2019. (EI会议收录)
[11] Jie Ling, Zhao Feng, Min Ming, Zhao Guo and Xiaohui Xiao*, “Integrating Damping Control with Iterative Learning Control for Fast and Precise Scanning of Nanopositioners: A TITO Design”, 2018 IEEE International Conference on Advanced Robotics and Mechatronics (ICARM). (EI会议收录)
[12] Zhang Qiang, Xiao Xiaohui*, Guo Zhao. Power Efficiency-Based Stiffness Optimization of a Compliant Actuator for Underactuated Bipedal Robot, International Conference on Intelligent Robotics and Applications, Tokyo, Japan, 2016: 186-197. (EI会议收录)
[13] Chen Gong, Guo Zhao, Yu Haoyong*, Design and evaluation of a portable knee-ankle-foot robot for gait rehabilitation, Proceedings of the ASME 2015 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, (IDETC/CIE 2015), August 2-5, 2015, Boston, Massachusetts, USA. (EI会议收录)
[14] Oussama Ben Farah, Zhao Guo, Gong Chen, Haoyong Yu, Chi Zhu, “Power Analysis of a Series Elastic Actuator for Ankle Joint Gait Rehabilitation”, 2015 IEEE International Conference on Robotics and Automation, (ICRA). (EI会议收录)
[15] Mun KyungRyoul, Guo Zhao, Yu Haoyong, Development and Evaluation of a Novel Over-ground Robotic Walker for Pelvic Motion Support, the 14th IEEE/RAS-EMBS International Conference on Rehabilitation Robotics (ICORR 2015), Aug 11-14, 2015, Singapore. (Best Conference Paper Finalist) (EI会议收录)
[16] Gu Xiaoyi, Guo Zhao, Peng Yuxin, Chen Gong, and Yu Haoyong, “Effects of Compliant and Flexible Trunks on Peak-Power of a Lizard-Inspired Robot,” 2015 IEEE Conference on Robotics and Biomimetics (ROBIO 2015), December 6-9, 2015, Zhuhai, China (Best Conference Paper Finalist). (EI会议收录)
[17] Chen Gong, Guo Zhao, Yu Haoyong, Gait Event-Based Human-Robot Synchrony for Gait Rehabilitation Using Adaptive Oscillator, 2015 IEEE Conference on Robotics and Biomimetics (ROBIO 2015), December 6-9, 2015, Zhuhai, China. (EI会议收录)
[18] Yu Haoyong, Chen Gong, Guo Zhao. Design of a novel portable knee ankle orthotics. 2013 IEEE life sciences grand challenges conference, Dec. 2-3, Singapore. (Outstanding Poster Award)
【4】英文专著章节
[1] Guo Zhao, Chen Gong, Yu Haoyong, chapter 8: Gait Event-Based Synchronization and Control of a Compact Portable Knee-Ankle-Foot Exoskeleton Robot for Gait Rehabilitation, book Title: “Wearable Exoskeleton Systems: Design, Control and Applications” edited by Shaoping Bai, Gurvinder S. Virk & Thomas Sugar. The Institution of Engineering and Technology (IET). 2018.05. ISBN: 978-1-78561-302-9. Pagination: 408pp (pp.165-187).
[2] Guo Zhao, Yu Haoyong, Wee Liang-Boon, Compliant Shape Memory Alloy Actuator Design, Modeling and Motion Control, Book Title: “Shape Memory Alloys: Characterization, Applications and Limitations”, Advances in Engineering Research. Vo. l9. ISBN: 978-1-63482-305-0.
【5】授权及申请发明专利
[1] 郭朝,肖晓晖,孙剑韬,张玉炳,基于可变支点的对称式变刚度柔性驱动器,授权号:ZL9.2.
[2] 郭朝,肖晓晖,张玉炳,孙剑韬,基于可变支点的变刚度柔性驱动器,授权号:ZL 3.9.
[3] 郭朝,肖晓晖,姚渊,张强,一种便携式柔性肘关节外骨骼机器人,授权号:ZL5.4.
[4] 郭朝,肖晓晖,张匆,周江琛,一种基于绳驱的仿生下肢外骨骼机器人,授权号:ZL 4.7.
[5] 郭朝,肖晓晖,许本燕,孙定阳,一种柔性绳驱上肢外骨骼机器人,授权号:ZL 8.4.
[6] 郭朝,肖晓晖,孙定阳,孙剑韬,一种变刚度下肢外骨骼机器人,授权号:ZL 4.5.
[7] 郭朝,肖晓晖,魏坤松,张玉炳,一种变刚度柔性驱动器,授权号:ZL 3.6
[8] 郭朝,肖晓晖,倪传政,周天林,一种主被动融合的变瞬心柔性绳驱下肢外骨骼机器人,授权号:ZL20**
[9] 郭朝,肖晓晖,周智雍,钱伟,一种基于KMP的下肢外骨骼康复机器人运动轨迹规划算法,申请号:2.8
[10] 郭朝,肖晓晖,王绍博,黄纪伟,一种用于人体运动意图感知的阵列式柔性电容电子皮肤,申请号:3.0
[11] 郭朝,肖晓晖,周天林,倪传政,一种基于柔性铰链的串联弹性驱动器及控制方法,申请号:6.2
[12] 郭朝,肖晓晖,招炜浩,王嘉辰,钱伟,一种适用于上肢康复外骨骼机器人的串联弹性驱动器,申请号:6.9
【6】主持及参与的科研项目:
在武汉大学主持的科研项目(总经费360万):
[1] 类生物骨骼肌变刚度驱动器的仿生机理与优化设计方法研究,国家自然科学基金青年基金项目(**),国家自然科学基金委,2017-2019,主持;
[2] 越野车全景环视系统技术研究,湖北省重点研发计划(2020BAB133),2021-2022,主持;
[3] 智能作业臂的巡检机器人及关键技术研究,国家重点研发计划(2018YFB**),技术骨干,2019-2021;
[4] 融合功能性电刺激(FES)的柔性下肢外骨骼康复机器人协作控制研究,深圳市科创委基础研究(自由探索)项目(JCYJ20**3318),深圳市科技创新委员会,2019-2021,主持;
[5] 变刚度驱动外骨骼机器人人机耦合动力学与协调控制,湖北省自然科学基金面上项目(2017CFB496),湖北省科技厅,2017-2018,主持;
[6] 仿人体骨骼肌的变刚度柔性驱动器设计及控制关键技术研究,江苏省自然科学基金青年基金项目(BK**),江苏省科技厅,2015-2018,主持;
[7] 武汉大学引进人才启动经费,2019-2021,主持;
[8] 下肢柔性外骨骼机器人功能康复机制及临床应用研究,武汉大学中南医院转化医学及交叉学科研究联合基金项目(ZNJC201929),2020-2021,工科负责人。
[9] 下肢柔性外骨骼机器人仿生设计与协调控制,武汉市青年科技晨光计划项目(20**304),武汉市科技局,2017.07-2019.12,主持;
[10] 下肢变刚度外骨骼机器人人机耦合动力学与协同控制,中国博士后基金第十批特别资助项目(2017T100573),中国博士后科学基金会,2017-2018,主持;
[11] 面向康复机器人的变刚度驱动器仿生设计原理及方法,中国博士后基金面上项目(2016M592382),中国博士后科学基金会,2016-2017,主持;
[12] 2017年度博士后国际交流计划学术交流项目,主持;
[13] 机器人模块化柔性关节,2020年度武汉大学实验技术项目(WHU-2020-SYJS-10),2020-2022;
[14] 智能机器人用变刚度驱动器仿生设计及控制,武汉大学自主科研(青年教师)资助项目,武汉大学,2016-2017,主持;
[15] 助力增强用柔性绳驱外骨骼机器人,武汉大学自主科研(B类)引导项目,武汉大学,2017-2018,主持;
[16] 机器人人机协同控制,武汉大学自主科研重大培育项目,武汉大学,2018-2019,主持;
[17] 武汉大学珞珈青年****人才基金,武汉大学,2017-2019,主持.
参与项目:
[1] 复合地面环境下双足机器人全/欠驱动混合的仿人行走稳定性控制,国家自然科学基金面上项目,国家自然科学基金委,2017-2019;
[2] 基于模拟学习的软操作柔顺交互控制研究,国家自然科学基金青年基金项目,国家自然科学基金委,2018-2020.
在新加坡国立大学主研项目:
[1] DynAmic connectomics of lower limb motoR corTex for Exoskeleton Robots (DARTER), Academic Research Fund (AcRF) TIER 2, SGD$ 670k 01-2015 to 12-2017
[2] A novel portable compliant powered knee and ankle foot orthosis for neurorehabilitation with modular design, A*Star BEP POC, $500k, 10-2014 to 04-2016
[3] Development and Evaluation of a Novel Portable Robotic Gait Rehabilitation Platform in older chronic stroke survivors, B&B Nov 2014 Grant, SGD$ 1,500k
[4] A Novel Robotic Omni-directional Mobility Device for Power-assisted hospital bed-A Revolutionary Solution for Hospital Productivity, $239,000, 08-2014 to 08-2015
六、社会服务工作及荣誉
【学术兼职】
[1] 动力与机械学院机械工程系副主任 (负责科研方向)
[2] IEEE会员/机械工程学会高级会员
[3] 国家自然科学基金通讯评审专家
[4] Frontiers in Neurorobotics 期刊 (SCI/EI收录,IF2.6), Special Issue: Bioinspired Design and Control of Robots with Intrinsic Compliance, 客座编委
[5] IEEE International Conference on Advanced Robotics and Mechatronics (ICARM 2018,2019) IEEE International Conference on Rehabilitation Robotics (ICORR 2015, 2017),国际会议编委
【国际期刊审稿】
IEEE/ASME Transaction on Mechatronics; IEEE Journal of Biomedical and Health Informatics; IEEE Robotics and Automation Letters; Sensors and Actuators A: Physical; Mechanism and Machine Theory; Medical & Biological Engineering & Computing; Robotics and Autonomous Systems; ASME Journal of Mechanisms and Robotics; Frontiers in robotics and AI.
【其他获奖荣誉】
[1] 2018年度被评为湖北省XXXX
[2] 2017年获评武汉大学珞珈青年****
[3] 2017 年入选“武汉市晨光青年科技人才计划”
[4] 一种穿戴式外肢体辅助抓持装置、多功能智能消毒健康卫士、环境预感知自适应辅助助力智能拐杖,指导学生分别获得第九届全国大学生机械创新设计大赛湖北赛区一等奖、二等奖和三等奖,2020
[5] 柔性上肢外骨骼机器人,“兆易创新杯”第十五届研究生电子设计竞赛华中赛区一等奖,2020,优秀指导老师
[6] 一种变瞬心下肢柔性外骨骼机器人,“博实杯”第一届研究生机器人创新设计竞赛全国三等奖,2019,优秀指导老师
[7] 柔性助行外骨骼机器人,“兆易创新杯”第十四届研究生电子设计竞赛全国一等奖,华中赛区一等奖,2019,优秀指导老师
[8] 变刚度仿人手软体自适应性抓取装置、柔性手指水果采摘装置,分别获得第八届全国大学生机械创新设计大赛湖北赛区一等奖、三等奖, 2018. 优秀指导老师
[9] 最佳会议论文提名奖 (Best Conference Paper Finalist),ICARM 2018,ICORR 2015
[10] 最佳海报奖 (Outstanding Poster Award), 2013 IEEE life sciences grand challenges conference
【学生毕业情况】
学生深造:王绍博-美国卡内基梅隆大学,张强—美国北卡罗莱纳州立大学,肖尔东—美国纽约大学,高沪昕、陈庭威—新加坡国立大学,徐本燕—清华大学,招炜浩—新加坡南洋理工大学,寇猛—英国爱丁堡大学
学生就业:张玉炳:深圳VIVO公司;孙定阳:深圳大疆公司;倪传政:上海华为研究院;周天林:杭州海康威视
相关话题/机械学院 动力
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