探测车机械臂机电一体化设计及定位精度分析

2023 IEEE 10th International Workshop on Metrology for AeroSpace (MetroAeroSpace) Pub Date : 2023-06-19 DOI:10.1109/MetroAeroSpace57412.2023.10190044

Giacomo Franchini, S. Chiodini, Marco Ghetti, M. Pertile

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引用次数: 0

摘要

即将到来的行星探测任务将广泛使用漫游者进行科学任务、建筑任务和宇航员辅助任务。执行这些任务的一个基本要素是机械臂的存在。介绍了行星探测车轻型模块化机械臂的机电一体化设计。研究发现，由于机械臂支持漫游车提供的非完整约束，所提出的4自由度解决方案提供了足够的灵巧性来收集目标样本，从而减少了质量和功率预算。漫游车手臂控制软件基于机器人操作系统(ROS)框架。利用基于AprilTag基准标记的低成本跟踪方法TagSLAM对定位精度进行了评估。

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Mechatronic Design and Positioning Accuracy Characterisation of a Robotic Arm for Exploration Rovers

Upcoming planetary exploration missions will see extensive use of rovers for both scientific tasks, building tasks and astronaut assisting tasks. An essential element to carry out these tasks is the presence of a robotic arm. In this work, the mechatronic design of a lightweight and modular robotic arm for a planetary exploration rover is presented. The presented 4DOF solution was found to provide enough dexterity to collect target samples due to the non-holonomic constraints provided by the arm's supporting rover, allowing reduced mass and power budget. The rover arm control software is based on the Robot Operative System (ROS) framework. Positioning accuracy has been evaluated with TagSLAM, a low-cost tracking method based on AprilTag fiducial markers.

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2023 IEEE 10th International Workshop on Metrology for AeroSpace (MetroAeroSpace)

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