Analysis on pivot turning of quadruped robot with bionic flexible body driven by the PAMs 被引量：1

Analysis on pivot turning of quadruped robot with bionic flexible body driven by the PAMs

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摘要 The pivot turning function of quadruped bionic robots can improve their mobility in unstructured environment.A kind of bionic flexible body mechanism for quadruped robot was proposed in this paper,which is composed of one bionic spine and four pneumatic artificial muscles(PAMs).The coordinated movement of the bionic flexible body and the leg mechanism can achieve pivot turning gait.First,the pivot turning gait planning of quadruped robot was analyzed,and the coordinated movement sequence chart of pivot turning was presented.Then the kinematics modeling of leg side swing and body bending for pivot turning was derived,which should meet the condition of the coordinated movement between bionic flexible body and leg mechanism.The PAM experiment was conducted to analyze its contraction characteristic.The study on pivot turning of the quadruped robot will lay a theoretical foundation for the further research on dynamic walking stability of the quadruped robot in unstructured environment. The pivot turning function of quadruped bionic robots can improve their mobility in unstructured environment.A kind of bionic flexible body mechanism for quadruped robot was proposed in this paper,which is composed of one bionic spine and four pneumatic artificial muscles （PAMs）.The coordinated movement of the bionic flexible body and the leg mechanism can achieve pivot turning gait.First,the pivot turning gait planning of quadruped robot was analyzed,and the coordinated movement sequence chart of pivot turning was presented.Then the kinematics modeling of leg side swing and body bending for pivot turning was derived,which should meet the condition of the coordinated movement between bionic flexible body and leg mechanism.The PAM experiment was conducted to analyze its contraction characteristic.The study on pivot turning of the quadruped robot will lay a theoretical foundation for the further research on dynamic walking stability of the quadruped robot in unstructured environment.

作者雷静桃 Yu Huangying Wu Zhizheng

机构地区 School of Mechatronic Engineering and Automation

出处《High Technology Letters》 EI CAS 2014年第3期288-294,共7页 高技术通讯（英文版）

基金 Supported by the National Natural Science Foundation of China(No.51375289) Shanghai Municipal National Natural Science Foundation of China(No.13ZR1415500) the Innovation Fund of Shanghai Education Commission(No.13YZ020)

关键词仿生机器人四足机器人轴转动柔性体 PAM 非结构化环境驱动气动人工肌肉 quadruped robot bionic flexible body pivot turning pneumatic artificial muscle （PAM）

分类号 TP242 [自动化与计算机技术—检测技术与自动化装置] TH113 [机械工程—机械设计及理论]

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参考文献3

1戴振东.陆上杆机构运动仿生的现状、关键技术及未来发展[J].南京航空航天大学学报,2012,44(5):621-628. 被引量：4
2张远深,刘明春,赵娜,何再龙,曾志钢.McKibben气动人工肌肉技术的发展历程[J].液压与气动,2008,32(7):13-15. 被引量：19
3王志坚.肌肉收缩的理论研究[J].生物信息学,2012,10(3):208-210. 被引量：1

二级参考文献20

1田社平,丁国清,林良明,颜德田.人工肌肉自适应预测控制[J].仪器仪表学报,2001,22(z2):86-87. 被引量：5
2周本濂.复合材料的仿生研究[J].物理,1995,24(10):577-582. 被引量：11
3Kinji Asaka.A New Type of Hybrid Fish-like Microrobot[J].International Journal of Automation and computing,2006,3(4):358-365. 被引量：10
4Hanson J, Huxley H.E. Sliding filaments mechanism of muscle contraction[J]. Nature, 1954, 173: 971- 973.
5Huxley, H.E. Hanson J. Changes in the cross - striations of mus- cle during contraction and stretch and their structural interpretation [J]. Nature, 1954, 173:973-976.
6Purcell TJ, Morris C, Spudich JA, et al. Role of the lever arm in the processive stepping of myosin - V [ J ]. Proc Nail Acad Sci, 2002,99 : 14159 - 14164.
7Thomas J, Purcell H, Lee Sweeney, et al. From the cover: A force - dependent state controls the coordination of processive myo- sin V [ J]. Proc Nail Acad Sci, 2005, 100:13873 -13878.
8Yasuda K, Shindo Y, I shiwata S. Synchronous behavior of sponta- neous oscillations of sarcomeres in skeletal myofibrilsunder isotonic conditions[ J]. Biophys J, 1996,70 : 1823 - 1829.
9Smith DA, Sdephenson DG. Theory and observation of spontane- ous oscillatory contractions iskeletal myofibrils [ J ]. Muscle Res Cell Motil, 1994, 15 : 369 - 389.
10宗光华.利用变结构系统理论实现人工肌肉的夹持力控制[J].机器人,1990,12(4):15-20. 被引量：5

共引文献21

1倪志广,麦云飞,阎宏伟.基于MATLAB仿真的气动肌肉静态特性研究[J].中国水运（下半月）,2020(3):113-114.
2胡增荣,沈爱军.气动肌肉的研究与应用概述[J].液压气动与密封,2009,29(5):15-20. 被引量：6
3李萌,沈力行,赵改平,尚昆,徐萌.主动型仿生腿的驱动控制与性能评测[J].中国组织工程研究与临床康复,2009,13(39):7632-7634.
4雷静桃,俞煌颖.四足机器人气动人工肌肉驱动的仿生柔性机体动力学分析[J].上海交通大学学报,2014,48(12):1688-1693. 被引量：9
5赵文涛,王森,罗巍.一种仿动物关节或腿刚度的机械腿结构设计方法[J].中国机械工程,2015,26(13):1712-1719.
6耿德旭,刘洪波,刘晓敏,赵云伟,彭贺,郑永永.气动空间弯曲柔性关节运动功能实验研究[J].液压与气动,2015,39(11):41-44. 被引量：5
7耿德旭,刘洪波,刘晓敏,赵云伟,郑永永.约束结构对单向弯曲柔性关节形变能力的影响[J].北华大学学报（自然科学版）,2016,17(1):133-136. 被引量：5
8雷静桃,Yu Huangying.Study on the musculoskeletal body for quadruped robots with spinning gait[J].High Technology Letters,2015,21(3):245-252. 被引量：2
9郑永永,刘晓敏,赵云伟,刘荣辉.基于正交试验设计的双驱型单向弯曲关节结构参数的优化设计研究[J].吉林化工学院学报,2016,33(5):46-49. 被引量：4
10刘晓敏,耿德旭,赵云伟,刘洪波,郑永永.约束边界条件对气动复合弹性体形变性能的影响[J].机床与液压,2016,44(19):1-4. 被引量：2

同被引文献1

1LEI Jingtao,YU Huangying,WANG Tianmiao.Dynamic Bending of Bionic Flexible Body Driven by Pneumatic Artificial Muscles(PAMs) for Spinning Gait of Quadruped Robot[J].Chinese Journal of Mechanical Engineering,2016,29(1):11-20. 被引量：21

引证文献1

1雷静桃,Jiang Yunqi,Ren Mingming.Stability margin of the quadruped bionic robot with spinning gait[J].High Technology Letters,2017,23(3):229-237. 被引量：2

二级引证文献2

1唐玲,刘涛,李德伦,魏世民.一种主动悬架式火星车稳定裕度优化控制策略[J].宇航学报,2019,40(11):1348-1357. 被引量：2
2王晨希,孟祥峰,王浩,李佳戈.医用机器人网络安全问题研究与探讨[J].中国医疗设备,2020,35(9):13-17. 被引量：5

1LEI Jingtao,YU Huangying,WANG Tianmiao.Dynamic Bending of Bionic Flexible Body Driven by Pneumatic Artificial Muscles(PAMs) for Spinning Gait of Quadruped Robot[J].Chinese Journal of Mechanical Engineering,2016,29(1):11-20. 被引量：21
2王道才.让“桌面”转一转[J].网友世界,2009(6):9-9.
3JAMES MAO.TURNING DOWN THE HEAT[J].China International Business,2010(2):62-63.
4韩宝玲,张天,罗庆生,朱颖,宋明辉.Obstacle avoidance technology of bionic quadruped robot based on multi-sensor information fusion[J].Journal of Beijing Institute of Technology,2016,25(4):448-454.
5雷静桃,Wu Jiandong.Bionic jumping dynamics of the musculoskeletal leg mechanism for quadruped robots[J].High Technology Letters,2016,22(2):120-127.
6Mantian Li,Zhenyu Jiang,Pengfei Wang,Lining Sun,Shuzhi Sam Ge.Control of a Quadruped Robot with Bionic Springy Legs in Trotting Gait[J].Journal of Bionic Engineering,2014,11(2):188-198. 被引量：28
7CHEN Xianbao,GAO Feng,QI Chenkun,TIAN Xinghua.Gait Planning for a Quadruped Robot with One Faulty Actuator[J].Chinese Journal of Mechanical Engineering,2015,28(1):11-19. 被引量：12
8谭冠政.Study on Gait Planning of Dynamic Walking of Biped Robots Based on Optimization Theory[J].High Technology Letters,1997,3(1):22-25.
9李斌,杨一平,邵雪松,王伟.Turning methods for quadruped robot with two degrees of freedom per leg[J].Journal of Harbin Institute of Technology(New Series),2011,18(5):7-13.
10那奇,韩宝玲,李华师,罗庆生,贾燕.Continuous and smooth gait transition in a quadruped robot based on CPG[J].Journal of Beijing Institute of Technology,2016,25(4):455-462. 被引量：1

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