类哺乳动物腿式机器人研究综述

摘要/Abstract

摘要：

类哺乳动物腿式机器人凭借其离散式的地面支撑和对障碍、沟渠等复杂特殊地形及不可预知环境的极强适应性,使其具有广泛的应用前景。从双腿式机器人和四腿式机器人两个方面介绍了国内外类哺乳动物腿式机器人的研究现状,分析和讨论了腿式机器人在腿部结构、关节驱动、导航、稳定性判据和控制算法方面的相关理论与方法,对存在的问题进行了讨论，并对未来的发展趋势进行了预测。

关键词: 类哺乳动物, 腿式机器人, 腿结构, 关节驱动, 导航, 稳定性判据, 控制算法

Abstract:

For discrete ground contact,there were high adaptability and extensive application prospect for mammalian legged robot when encountering special topographical and unpredictable environment such
as obstacles,ditch and so on.This paper surveyed the development process of mammalian legged robots,and mainly introduced overseas and domestic research status in terms of two legged and four legged robots.The related theory and method on legged structure,joint drive,navigation,stability criterion and control algorithm were analyzed and discussed,Meanwhile,the difficulties to be solved under development were analyzed and the future of legged robots was forecasted.

Key words: mammalian, legged robot, legged structure, joint drive, navigation, stability criterion, control algorithm

中图分类号:

TP242

秦现生1, 2, 张雪峰1, 谭小群1, 冯华山1, 张培培1. 类哺乳动物腿式机器人研究综述[J]. 中国机械工程, 2013, 24(6): 841-851.

QIN Xian-Sheng-1, 2, ZHANG Xue-Feng-1, TAN Xiao-Qun-1, FENG Hua-Shan-1, ZHANG Pei-Pei-1. Mammalian Legged Robot:a Review[J]. China Mechanical Engineering, 2013, 24(6): 841-851.

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http://www.cmemo.org.cn/CN/Y2013/V24/I6/841

参考文献

[1]张佩杰.欠驱动双足机器人行走步态建模与动态行走控制策略研究[D].长春:吉林大学,2010.
[2]Goswami A. Postural Stability of Biped Robots and the Foot--rotation Indicator Point[J]. International Journal of Robotics Research, 1999,18 (6) : 523- 533.
[3]Steeves C, Buehler M, Penzes S G. Dynamic Behav- iors for a Hybrid Leg- wheel Mobile Platform [C]//Proceedings of the International Conference on spie. Orlando, USA, 2002 : 75-86.
[4]Kanzaki S,Okada K,Inaba M. Bracing Behavior in Humanoid through Preview Control of Impact Dis- turbance[C]//Proceedings of the IEEE--RAS In- ternational Conference on Humanoid Robot. Tsukuba,Japan: IEEE, 2005 : 301-305.
[5]Park I,Kim J, Lee J. Mechanical Design of Human- oid Robot Platform Khr--3[C]//Proceedings of the 5th IEEE--RAS International Conference on Hu- manoid Robots. Tsukuba, Japan: IEEE, 2005: 321- 326.
[6]Mc Ghee R B,Frank A A. On the Stability Proper- ties of Quadruped Creeping Gaits[J]. Mathematical Biosciences, 1968,3 ( 1 ): 331-351.
[7]Honda. Asimo[EB/OL]. [2011-12-21]. http:// www. honda, com. cn/technology/asimo/a_first, ht- ml.
[8]Yamada Y, Nishikawa S, Shida K. Neural- body Coupling for Emergent Locomotion: A Musculo- skeletal Quadruped Robot with Spinobulbar Model [C]//Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems. San Francisco, USA: IEEE, 2011: 1499-1506.
[9]McGhee R B. Some Finite State Aspects of Legged Locomotion[J]. Mathematical Biosciences, 1968,2 (1): 67-84.
[10]Tedrake R,Zhang T W,Seung H S. Stochastic Pol- icy Gradient Reinforcement Learning on a Simple 3D Biped[C]//Proceedings of the IEEE/RSJ Inter- national Conference on Intelligent Robots and Sys- tems. Sendai, Japan :IEEE, 2004 : 2849-2854.
[11]Matos V,Santos C P. Omnidirectional Locomotion in a Quadruped Robot:A Cpg-- based Approach [C]//Proceedings of the 2010 IEEE/RSJ Interna- tional Conference on Intelligent Robots and Sys- tems. Taipai ,China : IEEE, 2010: 3392-3397.
[12]Koo I M, Trong T D, Kang T H. Control of A Quadruped Walking Robot Based on Biologically Inspired Approach[C]//Proceedings of the IEEE/ RSJ International Conference on Intelligent Robots and Systems. San Diego, USA: IEEE, 2007: 2969- 2974.
[13]Mail Daily. The Real Life C--3po:World's Most Advanced Robot Has Muscles,Tendons and Ability to Correct Its Own Mistakes[EB/OL]. [2011-12- 21]. http://www, dailymail, co. uk/sciencetech/ar- title-- 2007740/ecci -- worlds -- advanced -- robot -- muscles-- tendons -- -- ability- correct -- mistakes. html,.
[14]山东大学机器人研究中心.液压驱动机器人[EB/OL].[2011-12-21].http://www.sucro.org/ShowNews.asp?id=3858.
[15]Guizzo E. Virginia Tech's Humanoid Robot Charli Walks Tall [ EB/OL ]. [ 2011 - 12 - 21]. http://spec- trum. ieee. org/automaton/robotics/humanoids/ 042810--virginia- teeh- humanoid- robot- charli -- walks-- tall.
[16]Gouaillier D,Hugel V,Blazevic P. Mechatronic De- sign of Nao Humanoid [C]//Proceedings of the IEEE International Conference on Robotics and Au- tomation. Kobe,Japan:IEEE,2009 :769-774.
[17]Roston G P,Endsley E. Transformable Mobile Ro- bot: US, 608673[P]. 2000-05-30.
[18]Wisse M. Three Additions to Passive Dynamic Walking ; Actuation, an Upper Body, and 3D Stabil- ity[C]//Proceedings of the IEEE--RAS Interna- tional Conference on Humanoid Robots. California, USA: IEEE,2005 : 113-132.
[19]Wisse M. Essentials of Dynamic Walking .. Analysis and Design of Two--legged Robots[D], Delft: Au- ditorium of Delft University of Technology,2004.
[20]Hirai K. Current and Future Perspective of Honda Humamoid Robot[C]//Proceedings of the IEEE/ RSJ International Conference on Intelligent Robots and System. Grenoble, France: IEEE, 1998: 500-508.
[21]Park S H, Kim D S, Lee Y J. Discontinuous Spin- ning Gait of a Quadruped Walking Robot with Waist--joint[C]//Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems. Edmonton, Canada: IEEE, 2005: 2744- 2749.
[22]Huang Q, Nakamura Y. Sensory Reflex Control for Humanoid Walking[J]. IEEE Transactions on Ro- botics,2005,21(5) :977-984.
[23]谭民,徐德,候增广,等.先进机器人控制[M].北京:高等教育出版社,2007. 2
[24]Tran D T,Koo I M,Vo G L. A New Method in Modeling Central Pattern Generators to Control Quadruped Walking Robots [C]//Proeeedings of the IEEE/RSJ International Conference on Intelli- gent Robots and Systems. Louis, USA; IEEE, 2009:129-134.
[25]Mistry M, Buchli J, Schaal S. Inverse Dynamics Control of Floating Base Systems Using Orthogo- nal Decomposition [C]//Proceedings of the 2010 IEEE International Conference on Robotics and Automation. Anchorage, USA: IEEE, 2010: 3406- 3412.
[26]Mori T, Nakamura Y, Sato M. Reinforcement Learning for Cpg--driven Biped Robot[EB/OL]. [2011- 12-21]. http://www, aaai. org/Papers/ AAAI/2004/AAAI04-- 099. pdf.
[27]王立权[1],俞志伟[1].双足机器人HEUBR_1样机研制与实验研究[J].机器人,2009,31(5):453-459.
[28]马宏绪,张彭.两足步行机器人研究[J].高技术通讯,1995,5(9):17-20.
[29]Semini C. HyQ--design and Development of a Hy- draulically Actuated Quadruped Robot[D] ,Genoa: Italian Institute of Technology,2010.
[30]Christian R,Johan I,Freyr H. The Basic Design of the Quadruped Robot Warp1[C]//Proceedings of the International Conference on Climbing and Walking Robots. Stockholm, Sweden, 2000 : 1-8.
[31]Yasuhiro F,Katabuchi H,Kimura H. Dynamic Lo- comotion of Quadrupeds "Tekken 3 & 4" Using Simple Navigation System[J]. Journal of Robotics and Mechatronics,2010,22(1):36-42.
[32]张秀丽.四足机器人节律运动及环境适应性的生物控制研究[D].清华大学,2004:
[33]Hashimoto K, Sugahara Y, Tanaka C. Unknown Disturbance Compensation Control for a Biped Walking Vehicle[C]//Proceedings of the IEEE/ RSJ International Conference on Intelligent Robots and Systems. San Diego, USA: IEEE, 2007: 2204- 2209.
[34]Kim H K,Won D,Kwon O. Foot Trajectory Gen- eration of Hydraulic Quadruped Robots on Uneven Terrain[C]//Proceedings of the International Con- ference on Automation Control. Seoul, Korea, 2008:3021-3026.
[35]Hodoshima R, Doi T, Fukuda Y. Development of Titan XI:A Quadruped Walking Robot to Work on Slopes[C]//Proceedings of the IEEE/RSJ Interna- tional Con{erence on Intelligent Robots and Sys- tems. Sendai, Japan:IEEE, 2004: 792-797.
[36]谢涛[1],徐建峰[2],李霞[2].神经网络及误差补偿在HIT—Ⅲ双足机器人步态规划中的应用[J].中国机械工程,2003,14(2):131-133.
[37]Raibert M,Chepponis M. Running on Four Legs as though They Were One[J]. IEEE Journal of Ro- botics and Automation, 1986,2 ( 2 ) : 70-82.
[38]Sun L, Meng M Q H,Chen W M. Design of Quad- ruped Robot Based Cpg and Fuzzy Neural Network [C]//Proeeedings of the IEEE International Con- ferenee on Automation and Logistics. Jinan,China: IEEE, 2007 : 2403-2408.
[39]冯华山[1],王润孝[1],赵国斌[1],王雄[1].基于Kalman滤波的四足机器人姿态数据处理方法[J].中国制造业信息化：学术版,2008,37(10):37-40.
[40]Intelligent Robotics & Meehatronic System Laborato- ry. Aidin Robot [ EB/OL]. [2011 - 12 - 21]. http:// mecha, skku. ac. kr/board/list, php? bbs_id = Robot- ics_03.
[41]Son H M,Gu J B,Park S H. Design of New Quad- ruped Robot with Sma Actuators for Dynamic Walking [C]//Proceedings of the International Joint Conference on SICE-- ICASE. Busan, Korea, 2006 : 344-348.
[42]毛勇[1],王家廞[1],贾培发[1],韩灼[1].双足被动步行研究综述[J].机器人,2007,29(3):274-280.
[43]Fu C L, Chen K. Section--Map Stability Criterion for Biped Robots Part I: Theory[C]//Proeeedings of the International Conference on Mechatronics and Automation. Harbin. China, 2007:1529-1534.
[44]封锡盛.从有缆遥控水下机器人到自治水下机器人[J].中国工程科学,2000,2(12):29-33. 5
[45]李军[1],王润孝[1],冯华山[1],赵国斌[1].四足机器人静步态直线行走规划研究[J].计算机仿真,2009(6):183-186.
[46]Hilljegerdes J, Spenneberg D, Kirchner F. The Construction of the Four Legged Prototype Robot Aramies[J]. Climbing and Walking Robots, 2006,2 (1) :335-342.
[47]Raibert M, Blankespoor K, Nelson G. Bigdog, the Rough--terrain Quaduped Robot[C]//Proceedings of the 17th International Federation of Automation Control. Seoul, Korea, 2008 : 10822-10825.
[48]Vukobratovi M,Borovac B,Potkonjak V, ZMP: A Review of Some Basic Misunderstandings[J]. In- ternational Journal of Humanoid Robotics, 2006,3 (2) : 153-176.
[49]Raibert M H. Legged Robots[J]. Communications of the ACM, 1986,29(6) :499-514.
[50]俞志伟,戴振东,郭策,等.一种液压驱动式四足机器人:中国,cN102001371A[P].2011-04-06.