Pilot-Scale Development of a UAV-UGV Hybrid with Air-Based UGV Path Planning

2012 10th International Conference on Frontiers of Information Technology Pub Date : 2012-12-17 DOI:10.1109/FIT.2012.43

Nikolas Giakoumidis, Jin U. Bak, Javier V. Gómez, Arber Llenga, N. Mavridis

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引用次数: 14

Abstract

Traditionally, UAVs and Mobile Robots are viewed as two separate entities. However, upon closer examination of their synergies, a more unified conception of a closely-coupled system of the two could easily justify a view where both are just seen as separable parts of the body of a unitary hybrid symbiotic system -- essentially, one robotic entity, whose body parts can separate temporarily, and get together again later. In this paper, we will describe a prototype system consisting of a small-scale indoor pilot version of a much larger outdoors full scale system, as an illustration of this concept. Such indoor pilot versions have multiple advantages, as we shall show. In our prototype, a mobile robot UGV serves as a transport as well as recharge station for a lightweight quad-rotor UAV, while the UAV serves as a separable long-range vision system for the UGV, providing top-down views of its environment, which are stitched and transformed into maps, and which are utilized towards the navigation of the robot hybrid. Multiple avenues of extension of our system and the concept are also introduced, illustrating the power of the separable-body heterogeneous symbiotic multi-robot system concept.

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基于空基UGV路径规划的无人机-UGV混合飞行器的中试研制

传统上，无人机和移动机器人被视为两个独立的实体。然而，在仔细研究它们的协同作用后，一个更统一的概念，即两者紧密耦合的系统可以很容易地证明一个观点，即两者只是被视为一个单一混合共生系统的身体的可分离部分——本质上，一个机器人实体，其身体部分可以暂时分离，并在以后再次结合。在本文中，我们将描述一个原型系统，该系统由一个更大的室外全尺寸系统的小规模室内试验版本组成，作为这一概念的说明。正如我们将展示的那样，这种室内试验版本有多种优点。在我们的原型中，移动机器人UGV作为轻型四旋翼无人机的运输和充电站，而无人机则作为UGV的可分离远程视觉系统，提供其环境的自上而下视图，这些视图被缝合并转换为地图，并用于混合机器人的导航。本文还介绍了系统和概念的多种扩展途径，说明了可分离体异构共生多机器人系统概念的力量。

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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2012 10th International Conference on Frontiers of Information Technology

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