模块化自重构机器人是一种由许多智能模块组成的多机器人系统。
Modular Self-Reconfigurable Robot(MSR) is a multi-robot system that composited by many intelligent modules.
自重构机器人手是由一些模块构成的复杂的模块化自重构机器人系统。
The self-reconfigurable robot hand is a complex self-reconfigurable robot system composed of modules.
本文主要对元胞自动机在移动机器人的路径规划和模块化自重构机器人的运动规划中的应用进行了探索和研究。
In this paper, we try to do so some research work on algorithms of robot path planning and those of modular self-reconfigurable robots 'locomotion planning with cellular automata.
结果显示,构形拓扑转换过程中的连接变化操作次数被有效地降低,提高了模块化自重构机器人自重构的效率。
The result shows that the connective variations, i. e. connections or disconnections in the self-reconfiguration are reduced, which to improves the efficiency of self-reconfiguration for MSR robots.
本文主要对元胞自动机在移动机器人的路径规划和模块化自重构机器人的运动规划中的应用进行了探索和研究。
This paper defines the basic concept of configuration topological transformation of underwater modular self-reconfigurable robots, and sums up the discipline of the optimal topological transformation.
本文主要对元胞自动机在移动机器人的路径规划和模块化自重构机器人的运动规划中的应用进行了探索和研究。
This paper defines the basic concept of configuration topological transformation of underwater modular self-reconfigurable robots, and sums up the discipline of the optimal topological transformation.
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