论文信息 - Mechanisms for self-organizing robots which reconfigure in a vertical plane

Mechanisms for self-organizing robots which reconfigure in a vertical plane

A novel concept of collective robots with mechanical self-organization in a vertical plane is proposed and demonstrated. It is potentially applicable to autonomous mobile robots. In this system, gravity is the most critical among all physical constraints. To reconfigure in a gravitational environment, new types of mechanisms and control strategies are necessary. As the first step, this paper mostly discusses the mechanisms. The authors have fabricated prototype robots for the proof of concept. Each robot is composed of a body and a pair of arms. The body can be regarded as a cube with edge length of 90 mm, and is equipped with permanent magnets for bonding with another robot. The arms change the bonding configuration by rotation and sliding motions. They are driven by radio-controlled servomoters. Four robots successfully formed a stairs-like structure.

[1] L. Penrose,et al. Self-Reproducing Machines , 1959 .

[2] 敏男福田,et al. 動的再構成可能ロボットシステムに関する研究 : 第1報, セル間の自動接近・結合・分離制御実験 , 1989 .

[3] H. Kurokawa,et al. Self-assembling machine , 1994, Proceedings of the 1994 IEEE International Conference on Robotics and Automation.

[4] I. Shimoyama,et al. Two-dimensional micro-self-assembly using the surface tension of water , 1996 .

[5] Isao Shimoyama,et al. Dynamics of self-assembling systems: Analogy with chemical kinetics , 1994 .

[6] Tamio Arai,et al. Distributed Autonomous Robotic Systems 3 , 1998 .