模块化设计
机械臂
运动规划
适应性
计算机科学
路径(计算)
机器人
自重构模块化机器人
控制工程
运动控制
机器人学
工程类
运动(物理)
模拟
嵌入式系统
工作(物理)
控制系统
贪婪算法
变量(数学)
控制(管理)
移动机器人
人工智能
灵活性(工程)
控制重构
贴片设备
作者
Yingyu He,Mingyang Huang
标识
DOI:10.1177/09544062261416155
摘要
This work uses a modular reconfigurable robotic arm as a research case to study robotic arm development. By employing a straightforward modular reassembly method, a modular reconfigurable robotic arm motion system is designed. This system can be integrated into a modular mobile grasping platform for experimental implementation as required. The modular reconfigurable robotic arm performs path planning using an improved RRT algorithm. This enhanced RRT algorithm integrates a bidirectional search strategy, a goal-biased probability strategy, a greedy algorithm, and a variable step-size approach, combining multiple strategies to improve the RRT algorithm. It has been validated on a physical robotic arm, enabling precise motion control of the reconfigurable arm and effectively addressing poor adaptability following arm reconfiguration.
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