[1] Yu Huitao, Ma Peisun, He Dongqing,. Motion mechanism and gait planning of a wheeled micro robot [J]. Journal of Southeast University (English Edition), 2006, 22 (2): 191-195. [doi:10.3969/j.issn.1003-7985.2006.02.010]

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Motion mechanism and gait planning of a wheeled micro robot()

轮式微型机器人运动机理与步态规划

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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:

22

Issue:

2006 2

Page:

191-195

Research Field:

Automation

Publishing date:

2006-06-30

Info

Title:

Motion mechanism and gait planning of a wheeled micro robot

轮式微型机器人运动机理与步态规划

Author(s):

Yu Huitao;  Ma Peisun;  He Dongqing

Research Institute of Robotics, Shanghai Jiaotong University, Shanghai 200030, China

于会涛;  马培荪;  何冬青

上海交通大学机器人研究所, 上海 200030

Keywords:

micro robot;  shape memory alloy actuator;  wheeled;  gait planning

微型机器人;  SMA驱动器;  轮式;  步态规划

PACS:

TP249

DOI:

10.3969/j.issn.1003-7985.2006.02.010

Abstract:

Based on a novel shape memory alloy(SMA)actuator, a micro worming robot is presented.The robot adopts a wheeled moving mechanism.The principle of the robot’s enlarged pace is introduced, and the structure and motion mechanism of the SMA actuator and the wheeled moving mechanism are discussed.The gait about the robot’s rectilinear movement and turning movement is also planned.Under the effect of the eccentric wheel self-locking mechanisms and changing-direction mechanisms, the robot can move forward and backward, and turn actively, which overcomes the disadvantages of the traditional SMA micro robots to a certain extent.Furthermore, some experiments on the heating current of the SMA actuator and the robot’s motion capability are carried out.

在一种新型形状记忆合金驱动器的基础上, 研制了一种微型蠕动机器人, 该机器人采用轮式移动机构.对形状记忆合金驱动器、轮式移动机构的结构和运动机理以及机器人的步距扩大原理进行了讨论.并在此基础上, 对机器人的直线运动步态和转弯步态进行了规划, 使机器人在偏心轮自锁机构和换向机构作用下, 不但可以前后运动, 还具有主动转弯能力, 在一定程度上克服了传统的形状记忆合金机器人移动速度慢、只能被动转弯的缺点.最后对形状记忆合金驱动器所需加热电流及该机器人的运动性能进行了试验分析.

References:

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[2] Tu K Y, Lee T T, Wang C H, et al.Design of fuzzy walking pattern(FWP)for a shape memory alloy(SMA)biped robot [J].Robotica, 1998, 17(4):373-382.
[3] Li Mingdong, Xi Handa, Chu Jindi, et al.A micro/miniature six legged robot driven by SMA wires [J].Journal of Shanghai Jiaotong University, 2000, 34(10):1428-1432.(in Chinese)
[4] Lee Y P, Kim B, Lee M G, et al.Locomotive mechanism design and fabrication of biomimetic micro robot using shape memory alloy [A].In:Proceedings of the 2004 IEEE International Conference on Robotics and Automation[C].New Orleans, 2004.5007-5012.
[5] Shigeo M, Kazuhiro A, Keisuke Y, et al.Active endoscope with SMA(shape memory alloy)coil springs [A].In:Proceedings of IEEE Micro Electro Mechanical Systems (MEMS)[C].San Diego, 1996.290-295.
[6] Anthierens C, Libersa C, Touaibia M, et al.Micro robots dedicated to small diameter canalization exploration [A].In:Proceedings of IEEE International Conference on Intelligent Robots and Systems[C].Takamatsu, 2000.480-485.
[7] Yang Jie, Nakamura Yoshihiko, Wu Yuehua, et al.Medical micro robot—SMA endoscope system and laparoscopic surgery forceps [J].Journal of University of Science and Technology of China, 1996, 26(4):444-449.(in Chinese)
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Memo

Memo:

Biographies: Yu Huitao(1976—), male, graduate;Ma Peisun(corresponding author), male, professor, psma@sjtu.edu.cn.

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