代表性论文专著
2023年
1. Wang Jiangbei; Wang Yuxuan; Fei Yanqiong; Chen Weidong. Pneumatic bending soft actuator coupling with revolute joint with different boundary constraints. IEEE/ASME Transactions on Mechatronics, 28(3): 1245-1255, 2023.
2. Wang Jiangbei; Wang Yuxuan; Fei Yanqiong; Chen Weidong. Kinetostatic analysis of pneumatic bending soft actuator coupling with revolute joint. Journal of Mechanisms and Robotics, 15(6): 061013-1-10, 2023.
3. Liu Zhaoyu; Wang Yuxuan; Yuan Shaoke; Fei Yanqiong. Design and experiment of a pneumatic self-repairing soft actuator. Robotica, 41(6): 1812-1827, 2023.
2022年
1. Wang Yuxuan; Wang Jiangbei; Fei Yanqiong. Design and modeling of tetrahedral soft-legged robot for multi-gait locomotion. IEEE/ASME Transactions on Mechatronics, 27(3): 1288-1298, 2022.
2. Zhao Wei; Wang Jiangbei; Fei Yanqiong. A multigait continuous flexible snake robot for locomotion in complex terrain. IEEE/ASME Transactions on Mechatronics, 27(5): 3751-3761, 2022.
3. Liu Zhaoyu; Wang Yuxuan; Wang Jiangbei; Fei Yanqiong. Design and locomotion analysis of modular soft robot. Robotica, 40(11): 3995-4010, 2022.
4. Liu Zhaoyu; Wang Yuxuan; Wang Jiangbei; Fei Yanqiong; Du Qitong. An obstacle-avoiding and stiffness-tunable modular bionic soft robot. Robotica, 40 (8): 2651-2665, 2022.
5. 刘佳鹏; 王江北; 赵威; 费燕琼. 多功能软体机械手的设计与建模. 机械工程学报, 58(9): 1-9, 2022.
2021年
2020年
2019年
1. Fei, Yanqiong; Wang, Jiangbei; Pang, Wu. A Novel Fabric-Based Versatile and Stiffness-Tunable Soft Gripper Integrating Soft Pneumatic Fingers and Wrist.SOFT ROBOTICS, 6(1): 1-20, 2019.
2. Wang, Jiangbei; Fei, Yanqiong; Liu, Zhaoyu. Locomotion modeling of a triangular closed-chain soft rolling robot. MECHATRONICS, 57: 150-163, 2019.
3. Wang, Jiangbei; Liu, Zhaoyu; Fei, Yanqiong. Design and Testing of a Soft Rehabilitation Glove Integrating Finger and Wrist Function. JOURNAL OF MECHANISMS AND ROBOTICS-TRANSACTIONS OF THE ASME, 11(1): 011015, 2019.
4. Wang, Jiangbei; Fei, Yanqiong; Pang, Wu. Design, Modeling, and Testing of a Soft Pneumatic Glove With Segmented PneuNets Bending Actuators. IEEE-ASME TRANSACTIONS ON MECHATRONICS, 24(3): 990-1001, 2019.
5. Li, Jiarui; Wang, Jiangbei; Fei, Yanqiong. Nonlinear modeling on a SMA actuated circular soft robot with closed-loop control system.NONLINEAR DYNAMICS, 96(4): 2627-2635, 2019.
6. Wang Jiangbei, Fei Yanqiong. Design and modeling of flex-rigid soft robot for flipping locomotion[J]. Jounal of Intelligent and Robotic Systems. 2019, 95(2):379-388.
7. Wang Jiangbei , Min Jian, Fei Yangqiong, Pang Wu. Study on nonlinear crawling locomotion of modular differential drive soft robot[J]. Nonlinear Dynamics, 2019(7617).
8. Wang Jiangbei, Fei Yangqiong , Liu Zhaoyu. FifoBots:foldabel soft robots for flipping locomotion[J]. Soft Robotics, 2019, 6(4): 532-559
9. Wang Jiangbei, Liu Zhaoyu, Fei Yangqiong. Design and testing of a soft rehabilitation glove integrating finger and wrist function[J]. Journal of Mechanisms and Robotics, 2019,11(1):011015.
2018年
1. Zhu, Yuhang; Fei, Yanqiong; Xu, Hongwei. Stability Analysis of a Wheel-Track-Leg Hybrid Mobile Robot. JOURNAL OF INTELLIGENT & ROBOTIC SYSTEMS, 91(3-4): 515-528, 2018.
2. Pang Wu; Wang Jiangbei; Fei Yanqiong. The Structure, Design, and Closed-Loop Motion Control of a Differential Drive Soft Robot, SOFT ROBOTICS, 5(1): 71-80, 2018.
2017年
1. Fei, Yanqiong; Pang, Wu. Analysis on nonlinear turning motion of multi-spherical soft robots,NONLINEAR DYNAMICS, 88(2): 883-892, 2017.
2. Fei, Yanqiong; Xu, Hongwei. Modeling and Motion Control of a Soft Robot,
IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 64(2): 1737-1742, 2017.
1.Fei Yanqiong, Song Libo. Analysis on Docking Process in Lattice-type Self-reconfigurable Robot. International Journal of Nonlinear Sciences and Numerical Simulation. 11, 2010, 347–350.
2. Fei Yanqiong, Zhu Yueliang and Xia Ping. Analysis on Self-Morphing Process of Self-Reconfigurable Modular Robot, International Journal of Advanced Robotic Systems, 6(3), 2009, 215-222.
3. Fei Yanqiong, Song Libo. Design and Analysis of Modular Mobile Robot with Magnetic Wheels,WSEAS Transactions on Applied and Theoretical Mechanics,2008,12(3),902-911。
4. Fei Yanqiong, Zhao Xifang. Design and dock analysis for the interactive module of a lattice-based self-reconfigurable robot. Robotics and Autonomous Systems, 55(2),2007,87-95.
5.Fei Yanqiong, Xia Ping, Zhao Xifang. Docking analysis of two neighboring modules in a self-reconfigurable modular machine. International Journal of Advanced Manufacturing Technology, 2007, 32(9-10), p 985-989.
6.Fei Yanqiong, Dong Qinglei, Zhao Xifang. Modular structure of a self-reconfigurable robot. Frontiers of Mechanical Engineering in China, 2007, 2(1), p1-4.
7. Fei Yanqiong, Zhao Xifang. Modules Classification and Automatic Generation of Kinematics on Self-reconfigurable Modular Machine. Journal of Intelligent and Robotic Systems, 2005,43(2-4): 147-159.
8.Fei Yanqiong, Zhao Xifang. Jamming analyses for dual peg-in-hole in three dimensions. Robotica, 2005, (23), p89-91.
9. Fei Yanqiong, Zhao Xifang. Contact and jamming analysis for three dimensional dual peg-in-hole mechanism. Mechanism and Machine Theory, 2004(39),477–499.
10. Fei Yanqiong, Ding Fuqiang, Zhao Xifang. Collision-free motion planning of dual-arm reconfigurable robots. Robotics and Computer-Integrated Manufacturing, 2004(20), 351–357.
11. Fei Yanqiong, Zhao Xifang. An assembly process modeling and analysis for robotic multiple peg-in-hole. Journal of Intelligent and Robotic Systems, 2003, 36(2), p175-189.
12. Fei Yanqiong, Zhao Xifang, Song Libo. A Method for Modular Robots Generating Dynamics Automatically. Robotica,2001, 19, p59-66.
13. Libo Song, Yanqiong Fei, Tiansheng Lu. Study on Effects of Nonholonomic Constraints on Dynamics of a New Developed Quadruped Leg-Wheeled Passive Mobile Robot. Transactions on Systems .2009,8(1):137-147.
14. Xia Ping, Zhu Xinjian, Fei Yanqiong. Mechanical design and locomotion control of a homogenous lattice modular self-reconfigurable robot. Journal of Zhejiang University Science (Science in Engineering), 2006, 7(3):368-373.
15. 费燕琼,王永,宋立博,王洪光。网格型自重构模块化机器人的对接过程。机械工程学报,47(7),31-37,2011。
16.费燕琼, 朱跃梁, 徐磊。未知环境下模块化移动机器人路径规划的研究。哈尔滨工程大学学报, 31(09), pp 1248-1252,2010。
17. 费燕琼,张鑫,夏振兴。自重构模块化机器人的运动空间及自变形算法。机械工程学报,45(3),197-202,2009。
18. 费燕琼,张鑫,徐磊。自重构机器人系统自修复的拓扑空间及运动规则描述。002cc全讯开户送白菜学报,43(3),490-493,2009。
19.费燕琼,张鑫。可自修复的模块化机器人对接系统设计。高技术通讯,19(3),259-262,2009。
20.费燕琼,夏振兴,张鑫。自重构机器人模块间对接位姿的调整。002cc全讯开户送白菜学报,2008,42(4):544-547。
21.费燕琼,徐磊,夏振兴。自重构模块化机器人系统的空间状态及运动的研究。自然科学进展,2008,18(11):1356-1360。
22. 张鑫,费燕琼。 基于几何特征的自重构模块机器人自修复算法。002cc全讯开户送白菜学报,2008,42(7):1159-1162。
23. 费燕琼,夏振兴,赵锡芳。自重构模块的对接方法及特性分析。002cc全讯开户送白菜学报, 2007, 41(1): 116-118。
24. “Industrial Robotics:Programming, Simulation and Applications”,2007,InTech, USA.
25. 宋立博,李劲松,费燕琼。《运动控制系统原理、结构与设计》,上海科学技术文献出版社,2009。