一、基本情况

魏俊，男，博士，副教授，硕士生导师，河北工业大学“元光学者”。毕业于天津大学机械工程专业，一直致力于机器人机构学、变胞/可重构机构与机器人、外骨骼机器人、复杂系统控制相关等方向研究；主持并参与河北省自然科学基金项目，河北省教育厅项目，国家自然科学基金重点、创新研究群体等项目8项； 在机器人机构学领域发表论文30余篇(SCI/EI检索)，获得国家发明专利10项，合著出版学术著作《可重构机构与可重构机器人——分岔演变的运动学分析、综合及其控制》；兼任中国自动化学会机器人智能专业委员会委员，以及担任多家权威学术期刊的审稿人。

二、硕导所属（含跨转）学科、专业学位类别

机械工程学科（或专业学位类别）

研究方向1：可重构机构与机器人

研究方向2：外骨骼机器人

研究方向3：复杂系统动力学及控制

三、近年来发表代表性论文情况（仅限第一作者或通讯作者），主编或参编的教材、专著情况，获得专利情况等

1．发表代表性论文情况

（1）期刊论文

[1] A. Y. Shi, J. J. Zhang, J. Wei*（通讯）, C. L. Liu, W. L. Lv, J. K. Song, S. J. Guo, (2026). A motion manifold transmission switching-based type synthesis method for multi-operational-mode parallel mechanisms with configurable moving platforms, Mechanism and Machine Theory.  （中国科学院1区，Top期刊）

[2] Wei, J., Ai, C., Li, X., Song, J., Zhang, J., & Guo, S. (2026). A Passive Backpack Exoskeleton Based on a Four-Bar-Sinusoidal Coupled Mechanism for Centroid Regulation and Load Reduction. Journal of Mechanisms and Robotics , 1-15. （中国科学院4区）

[3] Liu, C., Zhang, J., Wei*（通讯）, J., Zhao, X., Shi, A., Song, J., & Guo, S. (2026). Multi-level evolutionary design of targeted rigid-flexible parallel rehabilitation robot. International Journal of Mechanical Sciences , 111201.（中国科学院1区，Top期刊）

[4] Song, J., Zhang, J., Wei, J.*（通讯）, Liu, C., Zhao, X., & Ai, C. (2026). Development and Kinematics Optimization of a Human-Compatible Rope-Driven Ankle Rehabilitation Robot Based on Foot-Ankle IFHA Identification.  IEEE transactions on bio-medical engineering ,  73 (1), 40-53.（中国科学院2区）

[5] Liu, T., Zhao, Y., Tian, X., Huang, S., Wei, J., & Chen, Y. (2025). Optimization-free dimensional synthesis of planar 2R-3R parallel mechanisms based on a one-dimensional algebraic manifold.  Mechanics Based Design of Structures and Machines , 1-26. (中国科学院3区)

[6] Ai, C., Zhang, J., Wei, J.*（通讯）, Song, J., Liu, C., & Shi, A. (2025). Configuration design and assisting effect evaluation of a novel double-support closed-chain unpowered load-carrying exoskeleton based on variable pivot gait.  Robotica ,  43 (10), 3657-3681. (中国科学院4区)

[7] J Wei*（通讯）, Y Zhu, et al. Configuration representation in conformal geometric algebra for reconfigurable mechanisms. Mechanism and Machine Theory ,   2025, 215: 106180. (中国科学院1区, Top期刊)

[8] Y Xing, J Wei* （通讯）, Y Zhu，et al. Lie algebra-based high-order constraint analysis of a novel multi-loop metamorphic mechanism derived from four-bar linkage for lower limb exoskeletons.  Mechanism and Machine Theory , 2025, 209: 105994. (中国科学院1区, Top期刊) 

[9] J Song, J Zhang，J Wei*（通讯）, et al. Kinematics Characteristic Analysis of a Type of Human-Machine Compatible Ankle Rehab Robots Based on Human-ankle IFHA Identification[J].  Robotics and Autonomous Systems , 2025, 104911. (中国科学院2区)

（论文17）

[10] J Song, J Zhang, J Wei, et al. Configuration design and dimensional synthesis of a novel 4-DOFs parallel ankle rehabilitative robot with dual virtual motion center.  Robotica , 2025,1-23. (中国科学院4区)

[11] H Yang, X Liu, W Lv, Y Xia, J M Liu, J Wei, et al, Design and analysis of a reconfigurable origami tube with tunable load-bearing capacity, Thin-Walled Structures, 2024, 205:112452. (中国科学院1区，Top期刊)

[12] W Lv, W Nie，J Wei*（通讯）, et al. A novel construction method for 1-DOF multi-loop kirigami mechanisms. Mechanism and Machine Theory , 2024, 200: 105698. (中国科学院1区, Top期刊)

[13] J Wei*(通讯), S Zhang, J Zhang. Biofusion design and parameter optimization for a novel passive assisted knee exoskeleton robot based on eight-bar mechanism[J]. Robotica , 2024,42(6): 1959-1985. (中国科学院4区) 

[14] C Ai, J Wei*（通讯）, et al. Variable Pivot Gait Based a Novel Dynamics Correction Method for Human Lower Limbs Model. Journal of Biomechanical Engineering, 2024 146 (4). (中国科学院4区) 

[15] J Song, J Wei, B Yu, et al. Configuration Design and Kinematic Performance Analysis of a Novel 4-DOF Parallel Ankle Rehabilitation Mechanism with Two Virtual Motion Centers.  Chinese Journal of Mechanical Engineering , 2023, 36(154). (中国科学院2区) 

[16] D Zhang, Z Li, P Jia, Y Zheng, S Liu, J Wei, M Zhang. Optimization Design and Trajectory Error Compensation of a Facade-Adaptive Wall-Climbing Robot. Symmetry , 2023, 15(2): 255. (中国科学院4区) 

[17] J Wei, B Yu, C Liu, J Song, J Zhang, C Meng. Grassmann line geometry based configuration synthesis of equivalent UU parallel mechanisms with two virtual center-of-motion.  Mechanism and Machine Theory , 2023, 181: 105208. (IF: 4.5，中国科学院1区, Top期刊) 

[18] J Wei, C Qiu, JS Dai. Configuration switch and path selection between Schönflies motion and non-Schönflies motion based on quotient manifold of novel reconfigurable parallel mechanisms. Mechanism and Machine Theory , 2023, 180: 105153. (IF: 4.5，中国科学院1区, Top期刊) 

[19] J Zhang, Z Ma, J Wei*（通讯）, S Yang, C Liu, S Guo. A Novel Evaluation Index and Optimization Method for Ankle Rehabilitation Robots Based on Ankle-Foot Motion.Journal of Biomechanical Engineering , 2023, 145(5): 051006. (中国科学院4区) 

[20] 魏俊，贾维涵，刘承磊，张建军，黄海晶，郭士杰. 驱动支链完全解耦的可重构踝关节康复并联机构型综合.机械工程学报，2022, 9(58), pp 45-56.（中文核心，EI）

[21] W An, J Wei, X Lu, JS Dai, Y Li. Geometric Design-based Dimensional Synthesis of A Novel Metamorphic Multi-fingered Hand with Maximal Workspace.Chinese Journal of Mechanical Engineering , 2021, 34(1):1-15. (IF:1.824，中国科学院3区) 

[22] J Wei, J S Dai. Lie Group Based Type Synthesis using Transformation Configuration Space for Reconfigurable Parallel Mechanisms with Bifurcation Between Spherical Motion and Planar Motion. Journal of Mechanical Design , 2020, 142(6), 063302. (IF: 2.652，中国科学院2区) 

[23] J Wei, J S Dai.Reconfiguration-Aimed and Manifold-Operation Based Type Synthesis of Metamorphic Parallel Mechanisms with Motion between 1R2T and 2R1T.   Mechanism and Machine Theory . 2019,139: 66-80. (IF: 4.5，中国科学院1区, Top期刊) 

[24] Y Dong, J Wei. Output feedback stabilization of nonlinear discrete-time systems with time-delay. Advances in Difference Equations , 2012, 2012(1): 73. (IF: 2.421，中国科学院4区)

[25] J Wei, Y Dong, Y Su. Guaranteed cost control of uncertain TS fuzzy systems via output feedback approach. WSEAS Transactions   on Systems , 2011, 10(9): 306-317.

（2）会议论文

[1] J Wei, H Ni, J Zhang. Conformational Design and Kinematic Analysis of a Reconfigurable Ankle Rehabilitation Robot. 2024 6th International Conference on Reconfigurable Mechanisms and Robots (ReMAR). IEEE, 2024: 479-486.（EI检索）

[2] Z Liu, J Wei, Y Xing, J Song and J Zhang. IMU-based continuous prediction of human lower limb joint angles, 2024 IEEE International Conference on Mechatronics and Automation (ICMA), Tianjin, China, 2024, pp. 1194-1199. （EI检索）

[3] J B Wang, L Ni,J Wei, J X Liu, J J Zhang, S J Guo.Active Disturbance Rejection Control of Lower Limb Exoskeleton Based on Genetic Algorithm. In 2023 42nd Chinese Control Conference (CCC), pp. 4407-4412. IEEE, 2023. （EI检索）

[4] KC, Qi, K F Fu, J Wei*（通讯）, C L Liu, J K Song, and J J Zhang. Kinematics Analysis of the Wearable Waist Rehabilitation Robot. International Conference on Intelligent Robotics and Applications, pp. 164-175. Singapore: Springer Nature Singapore, 2023. （EI检索）

[5] Z X, Zhang, B Yu, J B Wang, J K Song, Jun Wei*（通讯）. Configuration Synthesis of 4 DOF Knee Rehabilitation Parallel Mechanism Based on Multiset Theory. In International Conference on Intelligent Robotics and Applications, pp. 15-24. Singapore: Springer Nature Singapore, 2023. （EI检索）

[6] W Jia, C Liu, J Wei, J Zhang. Configuration Synthesis of Multi-mode Ankle Rehabilitation Robot. Intelligent Robotics and Applications: 14th International Conference, ICIRA 2021, Yantai, China, October 22–25, 2021, Proceedings, Part IV 14. Springer International Publishing, 2021: 103-114. （EI检索）

[7] J Wei, JS Dai. Group Method for Synthesis of Metamorphic Parallel Mechanism with 1R2T and 2R1T Reconfiguration. 2018 International Conference on Reconfigurable Mechanisms and Robots. IEEE, 2018: 1-6. (EI检索) （EI检索）

[8] J Wei, Y Dong, Y Su. Exponential stabilization for uncertain TS fuzzy systems with time-delay and nonlinear perturbation. Proceedings of the 31st Chinese Control Conference. IEEE , 2012: 1330-1335. （EI检索）

[9] Y Su, Y Dong, J Wei. Robust stability criterion for uncertain neural networks with time delay. Proceedings of the 31st Chinese   Control Conference. IEEE , 2012: 524-529. （EI检索）

2. 出版专著情况

戴建生、康熙、宋亚庆、魏俊.可重构机构与可重构机器人——分岔演变的运动学分析、综合及其控制,  北京：高等教育出版社，2021.获得国家科学技术学术著作出版基金资助出版.

3. 主持/参与项目情况

[1] 河北省自然科学基金面上项目，下肢失能辅助外骨骼变胞机构刚柔耦合稳态变形机理研究，E2025202110，6万元，在研，2025.01-2027.12.

[2] 河北省高等学校科学研究青年基金项目，膝关节康复人机运动协同机构型综合研究,QN2025222, 5万元，在研，2025.01-2027.12.

[3] 深圳市智能机器人与柔性制造重点实验室开放课题项目，高适应性机构进化形态学机构综合与设计，ZDSYS20220527171403009，5万元，结题，2024.10-2025.10.

[4] 河北省自然科学基金面上项目，可重构并联机构多构型切换机理和运动特性协同研究，E2022202130，10万元，结题，2022.01-2024.12.

[5] 国家自然科学基金重点项目，机构演变与变胞机理及其面向任务的多工况性能综合设计，51535008，398万元，结题，2016.01-2020.12.

[6] 国家自然科学基金创新研究群体项目，高端装备机构理论与技术基础，51721003，1050万元，结题，2018.01-2023.12.

4. 发明专利情况

[1] 魏俊, 官永鹏. 一种具有部分可展性能和大可展比的可重构可展机构, 中国发明专利：CN 120666828 A，2025.09.19

[2] 魏俊, 朱宇航, 邢宇松, 官永鹏, 张建军, 郭士杰. 一种髋关节变胞组件和康复外骨骼变胞机构，中国发明专利: CN119734247A, 2025-04-01

[3] 魏俊，官永鹏， 刘鸿飞， 朱宇航， 张建军， 郭士杰. 一种膝关节变胞助力外骨骼.中国发明专利：CN119188707A，2024.12.27.

[4] 魏俊，邢宇松，刘泽坤，朱宇航，张建军.一种辅助支撑的多位姿变胞外骨骼.中国发明专利：CN118357900A，2024.07.19.

[5] 魏俊,张忠鑫,张建军等. 一种四自由度膝关节康复并联机构，中国发明专利，CN116672213A,2023.09.01. 

[6] 魏俊,倪海东,张建军等. 一种可重构的踝关节康复并联机构，中国发明专利，CN116350473A，2023.06.30. 

[7] 刘承磊,高德義,张建军，魏俊，郭士杰.一种刚柔耦合踝关节康复机器人.中国发明专利：CN116869782A,2023.10.13. 

[8] 张建军,高德義,刘承磊,魏俊，郭士杰.一种踝关节运动识别机构.中国发明专利：CN116982971A, 2023.11. 03. 

[9] 张建军，于斌，魏俊，刘承磊等. 一种新型含子闭链的四自由度踝关节康复并联机构，中国发明专利，授权号：CN114668629B, 2024.1.12.

[10] 李咪,魏俊,戴建生.一种新型变胞并联铰链机构， 授权号：CN111136644A，国家发明专利，2020.5.12. 

四、联系邮箱：jun.wei@hebut.edu.cn , 欢迎机械、控制、数学背景的考生报考。