The Design, Fabrication and Preliminary Testing of a Variable Configuration Mobile Robot

N. Giannoccaro, T. Nishida
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引用次数: 2

Abstract

In this paper a novel low cost mobile robot that can adjust the balance between the energy efficiency and the running performance according to the environment by changing the number of wheels is introduced. The developed robot, which can be constructed by combining the modules and is driven by Robot Operating System (ROS) tools, has a 3D light detection and distance measurement (LiDAR) for generation of 3D digital map and travels through several environment with saving the energy by adaptively changing the number and arrangement of the wheels according to the environment. The robot can easily change the three types of mechanisms by changing the number of modularized driving wheels and their combination. Furthermore, the developed robot can construct a 3D map in a rough outdoor environment and the running performance of three kinds of robots was investigated by an extensive characterization. Finally, the limits of this prototype have been meticulously analyzed, highlighting new improvements in the future perspective development for permitting an autonomous environment perception with a simple, modular and low-cost device.
一种变结构移动机器人的设计、制造和初步测试
本文介绍了一种新型的低成本移动机器人,该机器人可以通过改变车轮的数量来根据环境调整能效和运行性能之间的平衡。所开发的机器人可以由模块组合而成,由机器人操作系统(ROS)工具驱动,具有3D光探测和距离测量(LiDAR),用于生成3D数字地图,并通过根据环境自适应改变车轮的数量和排列来节省能量。机器人可以通过改变模块化驱动轮的数量和组合,方便地改变这三种机构。此外,开发的机器人可以在恶劣的室外环境中构建三维地图,并对三种机器人的运行性能进行了广泛的表征。最后,对该原型的局限性进行了细致的分析,强调了未来视角发展的新改进,即通过简单、模块化和低成本的设备实现自主环境感知。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
6.80
自引率
0.00%
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