探索和拓扑映射与Hexbugs

Proceedings of the 14th International Conference on Information Processing in Sensor Networks Pub Date : 2015-04-13 DOI:10.1145/2737095.2737137

A. Dirafzoon, E. Lobaton, A. Bozkurt

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引用次数: 2

摘要

在这个演示中，我们提出了一个用于生物昆虫的拓扑映射系统，以便仅使用代理之间的邻居相互作用来绘制未知区域的地图。生物昆虫将昆虫的运动优势与无线传感技术融合在一起，以电子背包的形式发挥搜索和救援作用。我们的制图方法是为应急响应场景而设计的，在这种情况下，传统的制图方法可能会因缺乏本地化信息而失败。我们演示了我们提出的方法的性能，而不是使用Hexbugs，它模拟生物机器人的自然随机运动。这些Hexbugs被分散到一个结构未知的迷宫中(图1)，它们的局部互动通过视觉跟踪系统被捕捉到。然后将这些信息利用到数据分析引擎中，以鲁棒地找到迷宫的拓扑结构。

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Exploration and topological mapping with Hexbugs

In this demonstration, we present a topological mapping system to be used with biobotic insects in order to sketch maps of unknown arenas using only neighbor to neighbor interactions among the agents. Biobotic insects fuse the locomotory advantages of insects with wireless sensing technology in form of electronic backpacks to function as search and rescue agents. Our mapping approach is designed for emergency response scenarios, where traditional mapping approaches may fail due to lack of localization information. We demonstrate the performance of our proposed approach instead using Hexbugs, which emulate the natural random motion of biobots. The Hexbugs are dispersed into a maze with unknown structure (Fig. 1), and their local interactions are captured through a visual tracking system. Such information is then exploited into a data analysis engine in order to robustly find the topological structure of the maze.

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Proceedings of the 14th International Conference on Information Processing in Sensor Networks

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