[1]刘方湖,李满华,马培荪.管道形轮腿式月球探测机器人的运动学建模[J].东南大学学报(自然科学版),2003,33(6):741-745.[doi:10.3969/j.issn.1001-0505.2003.06.015]
 Liu Fanghu,Li Manhua,Ma Peisun.Kinematic modeling of a pipeline-shaped wheel-legged lunar exploration robot[J].Journal of Southeast University (Natural Science Edition),2003,33(6):741-745.[doi:10.3969/j.issn.1001-0505.2003.06.015]
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管道形轮腿式月球探测机器人的运动学建模()
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《东南大学学报(自然科学版)》[ISSN:1001-0505/CN:32-1178/N]

卷:
33
期数:
2003年第6期
页码:
741-745
栏目:
自动化
出版日期:
2003-11-20

文章信息/Info

Title:
Kinematic modeling of a pipeline-shaped wheel-legged lunar exploration robot
作者:
刘方湖1 李满华2 马培荪3
1 马佐里(东台)纺机有限公司上海研发中心,上海 200090; 2 井冈山师范学院计算机技术与科学系,吉安 343009; 3 上海交通大学机械工程学院, 上海 200030
Author(s):
Liu Fanghu1 Li Manhua2 Ma Peisun3
1 Shanghai R&D Center, Marzoli(Dongtai)Textile Machinery Co., Ltd., Shanghai 200090, China
2 Computer Technology & Science Department, Jinggangshan Normal College, Ji’an 343009, China
3 School of Mechanical Engineering, Shanghai Jiaotong University, Shanghai 200030, China
关键词:
月球探测 移动机器人 运动学建模
Keywords:
lunar exploration mobile robots kinematic modeling
分类号:
TP242.3
DOI:
10.3969/j.issn.1001-0505.2003.06.015
摘要:
针对月球的微重力特性、地形的不连续性、部分驱动轮打滑、部分车轮短时间离开地面甚至机器人发生侧翻的复杂情况,用移动机器人在不同时刻不同斜面上的运动学模型组成机器人在崎岖不平地面上行驶的复合运动学模型的方法(TPCM),为管道形轮腿式月球探测机器人(PWLER)建立了正向和逆向运动学模型.运用正向运动学模型,根据PWLER各驱动轮的转速可估算出机器人相对于绝对坐标系的位置和姿态.运用逆向运动学模型,根据PWLER期望的前进速度和转弯半径可确定出各驱动轮的速度.从而为PWLER在三维地形上的自主导航和路径跟踪提
Abstract:
Taking into account lunar microgravity, discontinuity of terrain, rolling slip or departing from ground temporarily of a part of driving wheels, and even side tipover, we present the forward and inverse kinematics models for a new type of pipeline-shaped wheel-legged lunar exploration robot(PWLER)in TPCM method which is to form a composite kinematics model of a robot operating in rough terrain combining different kinematics models of the robot on different slopes at different times. The robotic forward kinematics model can estimate the position and orientation of the PWLER robot relative to the world coordinates using each driving wheel’s rotational velocity of the robot. The robotic inverse kinematics model uses desired robotic linear velocity and turning radius as input and produces each driving wheel’s rotational velocity. Thus, the PWLER robot has a base to complete its autonomous navigation and path tracking in a 3-dimensional complex terrain.

参考文献/References:

[1] Muir P F,Neumann C P.Kinematic modeling of wheeled mobile robots [J].J Robotic Systems,1987,4(2):281-340.
[2] Alexander J C,Maddocks J H.On the kinematic of wheeled mobile robots [J].Int J Robotics Research,1989, 8(5):15-26.
[3] d’Andréa-Novel B,Bastin G,Campion G.Modeling and control of non-holonomic wheeled mobile robots [A].In:Proc of the 1991 IEEE Int Conf on Robotics & Automation [C].Sacramento:IEEE,1991,2:1130-1135.
[4] Kanayama Y.Two dimensional wheeled vehicle kinematics [A].In:Proc of the 1994 IEEE Int Conf on Robotics & Automation [C].IEEE,1994,4:3079-3084.
[5] Borenstein J.Control and kinematic design of multi-degree-of freedom mobile robots with compliant linkage [J].IEEE Transactions on Robotics and Automation,1995,11(1):21-35.
[6] Tarokh M,McDermott G,Hayati S,et al.Kinematic modeling of a high mobility Mars rover [A].In:Proc of the 1999 IEEE Int Conf on Robotics & Automation [C].Detroit:IEEE,1999.992-998.
[7] 刘方湖,马培荪,曹志奎,等.五轮铰接式月球机器人的运动学建模[J].机器人,2001,23(6):481-485.
  Liu Fanghu,Ma Peisun,Cao Zhikui,et al.Kinematic modeling of a five-wheel articulated lunar robot [J]. Robot,2001, 23(6):481-485.(in Chinese)
[8] 胡宗武,乐晓斌.机械结构概率设计[M].上海:上海交通大学出版社,1995.208-210.

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备注/Memo

备注/Memo:
作者简介: 刘方湖(1972—),男,博士,fhliu910@etang.com.
更新日期/Last Update: 2003-11-20