|Table of Contents|

[1] Wu Qiuxuan, Cao Guangyi, Fei Yanqiong,. Motion simulation and experimentof a novel modular self-reconfigurable robot [J]. Journal of Southeast University (English Edition), 2006, 22 (2): 185-190. [doi:10.3969/j.issn.1003-7985.2006.02.009]
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Motion simulation and experimentof a novel modular self-reconfigurable robot()
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
22
Issue:
2006 2
Page:
185-190
Research Field:
Automation
Publishing date:
2006-06-30

Info

Title:
Motion simulation and experimentof a novel modular self-reconfigurable robot
Author(s):
Wu Qiuxuan1 Cao Guangyi1 Fei Yanqiong2
1Research Institute of Fuelcell, Shanghai Jiaotong University, Shanghai 200030, China
2Research Institute of Robot, Shanghai Jiaotong University, Shanghai 200030, China
Keywords:
modular self-reconfigurable robot structure design motion simulation distributed control
PACS:
TP242
DOI:
10.3969/j.issn.1003-7985.2006.02.009
Abstract:
Based on the character of the modular self-reconfigurable(MSR)robot, a novel homogeneous and lattice MSR robot, M-Cubes, was designed.Each module unit of the robot has 12 freedoms and is composed of six rotary joints and one cubic link.An attached/detached mechanism was designed on the rotary joints.A novel space transmitting system was placed on the inner portion of the cubic link.A motor separately transmitted torque to the six joints which were distributed equally on six surfaces of the cubic link.The example of a basic motion for the module was demonstrated.The result shows that the robot is concise and compact in structure, highly efficient in transmission, credible in connecting, and simple in controlling.At the same time, a simulator is developed to graphically design the system configuration, the reconfiguration process and the motion of cluster modules.The character of local action for the cellular automata(CA)is utilized.Each module is simplified as a cell.The transition rules of the CA are developed to combine with the genetic algorithm(GA)and applied to each module to accomplish distributed control.Simulation proves that the method is effective and feasible.

References:

[1] Fukuda T, Kawaguchi Y.Cellular robotic system as one of the realization of self-organizing intelligent universal manipulator [A].In:Proc of the IEEE Intl Conf on Robotics and Automation [C].Cincinnati, USA, 1990.662-667.
[2] Yim M, Zhang Y, Roufas K, et al.Connecting and disconnecting for chain self-reconfiguration with PolyBot [J].IEEE ASME Transactions on Mechatronics, 2002, 7(4):442-451.
[3] Castano A, Will P.Mechanical design of a module for reconfigurable robots [A].In:Proc of the IEEE Intl Conf on Intelligent Robots and Systems[C].Takamatsu, Japan, 2000.2203-2209.
[4] Kurokawa H, Murata S, Yoshida E, et al.A 3-D self-reconfigurable structure and experiments[A].In:Proc of the IEEE Intl Conf on Intelligent Robots and Systems[C].Victoria, Canada, 1998.860-865.
[5] Rus D, Vona M.Crystalline robots:self-reconfiguration with unit compressible modules [J].Autonomous Robots, 2001, 10(1):107-124.
[6] Unsal C, Khosla P K.Mechatronic design of a modular self-reconfigurable robotics system [A].In:Proc of the IEEE Intl Conf on Intelligent Robots and Systems[C].Takamatsu, Japan, 2000.1742-1747.
[7] Yim M, Zhang Y, Lamping J, et al.Distributed control for 3-D metamorphosis [J].Autonomous Robots, 2001, 10(1):41-56.
[8] Kondoh S, Tomiyama T, Umeda Y.Morphological design of a manufacturing system based on the concept of cellular machines[A].In:Intelligent Autonomous Systems 6 [C].Italy:IOS Press, 2000.926-933.
[9] Simon M, Sean P.An overview of genetic algorithms for the solution of optimization problems [J]. Computers in Higher Education Economics Review, 1999, 13(1):16-20.
[10] Butler Z, Kotay K, Rus D, et al.Generic decentralized control for a class of self-reconfigurable robots [A].In:Proc of the IEEE Intl Conf on Robotics and Automation [C].Washington, DC, 2002.809-815.
[11] Barthelemy H.Framework for simulating modular robots and self-organization of locomotion under water [D].Lausanne:Swiss Federal Institute of Technology, 2005.

Memo

Memo:
Biographies: Wu Qiuxuan(1978—), male, graduate;Cao Guangyi(corresponding author), male, professor, Caogy@sjtu.edu.cn.
Last Update: 2006-06-20