Validation of a Limit Ellipsis Controller for Rescue Drones

2022 IEEE 16th International Symposium on Applied Computational Intelligence and Informatics (SACI) Pub Date : 2022-05-25 DOI:10.1109/SACI55618.2022.9919440

Bálint Varga, C. Doer, G. Trommer, S. Hohmann

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Abstract

In recent years, more and more robotic systems have been supporting rescue forces in their missions. This paper presents the control algorithm and its application of an unmanned areal vehicle (UAV), which can support emergency personnel in their work. An adaption of the so-called Limit Ellipsis Controller (LEC) for indoor UAV is proposed. This adaptation enables the LEC to be used in semi-structured environments with static and dynamic obstacles. The main benefit of the LEC is that it can prevent deadlocks caused by other methods in complex environments. Furthermore, the LEC function is implemented on an experimental UAV system and tested in various environments. The proposed technical system enables exploration of a building by a semi-autonomous UAV, saving valuable rescue time. The UAV can fly into the building and explore the interior without collision. The results show that the proposed controller can adequately avoid local minima, guide the UAV to the desired target, and provide essential information for the rescue team in real demonstration scenarios.

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救援无人机极限省略号控制器的验证

近年来，越来越多的机器人系统支持救援部队执行任务。介绍了一种支持应急人员工作的无人机控制算法及其应用。提出了一种适用于室内无人机的极限省略控制器(LEC)。这种适应性使LEC能够在具有静态和动态障碍物的半结构化环境中使用。LEC的主要优点是它可以防止复杂环境中其他方法引起的死锁。此外，LEC功能在一个试验性无人机系统上实现，并在各种环境中进行了测试。提出的技术系统使半自主无人机能够探索建筑物，节省宝贵的救援时间。无人机可以飞进建筑物，探索建筑物内部而不会发生碰撞。结果表明，所提出的控制器能够充分避免局部极小值，引导无人机到达预期目标，为真实演示场景下的救援队伍提供必要的信息。

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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来源期刊

2022 IEEE 16th International Symposium on Applied Computational Intelligence and Informatics (SACI)

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