This paper proposes RUR53: an Unmanned Ground Vehicle able to autonomously navigate through, identify, and reach areas of interest; and there recognize, localize, and manipulate work tools to perform complex manipulation tasks. The proposed contribution includes a modular software architecture where each module solves specific sub-tasks and that can be easily enlarged to satisfy new requirements. Included indoor and outdoor tests demonstrate the capability of the proposed system to autonomously detect a target object (a panel) and precisely dock in front of it while avoiding obstacles. They show it can autonomously recognize and manipulate target work tools (i.e., wrenches and valve stems) to accomplish complex tasks (i.e., use a wrench to rotate a valve stem). A specific case study is described where the proposed modular architecture lets easy switch to a semi-teleoperated mode. The paper exhaustively describes description of both the hardware and software setup of RUR53, its performance when tests at the 2017 Mohamed Bin Zayed International Robotics Challenge, and the lessons we learned when participating at this competition, where we ranked third in the Gran Challenge in collaboration with the Czech Technical University in Prague, the University of Pennsylvania, and the University of Lincoln (UK).
翻译:本文提出RUR53:无人驾驶的地面飞行器,能够自主导航、识别和进入感兴趣的领域;并承认、本地化和操控工作工具,以完成复杂的操作任务。拟议贡献包括模块软件结构,每个模块解决具体的子任务,并且可以轻松扩大以满足新的要求。包括室内和室外测试表明,拟议系统有能力自主检测目标对象(一个面板),并准确停靠在前面,同时避免障碍。它们表明,它能够自主识别和操作目标工作工具(即扳手和阀根),完成复杂的任务(即用扳手旋转阀根)。具体案例研究说明,拟议的模块结构便于转换成半电子操作模式。文件详尽地描述了RUR53的硬件和软件设置、2017年Mohamed Bin Zayd国际机器人挑战测试时的性能,以及我们在参加这次竞赛时学到的经验教训,我们在此竞赛中与布拉格的捷克技术大学、宾夕法大学和林肯大学合作,我们在此次竞赛中名列第三。