Vision based Autonomous QuadCopter Navigation through Narrow Gaps using Visual Servoing and Monocular SLAM

2019 Sixth Indian Control Conference (ICC) Pub Date : 2019-12-01 DOI:10.1109/ICC47138.2019.9123153

Titas Bera, A. Sinha, A. Sadhu, R. Dasgupta

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引用次数: 3

Abstract

In this paper we show a vision based autonomous quad-copter navigation through a narrow gap or window. The goal is to provide an effective solution to a problem of urban UAV search and rescue mission scenario, such as, fire detection and quenching situation in a high rise building. Such scenario may demand a GPS denied navigation and requires extensive use of on-board vision sensors and processors. In this paper, using on-board vision sensor based localization and visual servoing, we show a method to demonstrate a UAV autonomous navigation to enter a building through a narrow window. The entire mission scenario is divided into two phases, where the first phase comprises an effective visual servoing based approach trajectory generation and execution. In the terminal phase, the vision sensors may fail to locate the desired target features due to the constraints in view angle geometry. To compensate that a non-linear guidance law based trajectory following method is used which generates a monocular SLAM based phantom target locus and provides a consistent homing control. We have experimentally demonstrated and evaluated the method in a real world scenario with substantial success rate.

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基于视觉伺服和单目SLAM的四轴飞行器窄间隙自主导航

在本文中，我们展示了一种基于视觉的四旋翼飞行器通过狭窄间隙或窗口的自主导航。目标是针对城市无人机搜救任务场景的问题，如高层建筑的火灾探测和灭火情况，提供有效的解决方案。这种情况可能需要GPS拒绝导航，并需要广泛使用车载视觉传感器和处理器。本文利用基于机载视觉传感器的定位和视觉伺服技术，展示了一种无人机通过窄窗进入建筑物的自主导航方法。整个任务场景分为两个阶段，其中第一阶段包括基于有效视觉伺服的进场轨迹生成和执行。在终端阶段，由于视角几何的限制，视觉传感器可能无法定位期望的目标特征。为了弥补这一缺陷，采用了基于非线性制导律的弹道跟踪方法，生成了基于单目SLAM的幻影目标轨迹，并提供了一致的寻的控制。我们已经在现实世界的场景中实验证明和评估了该方法，成功率很高。

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

2019 Sixth Indian Control Conference (ICC)

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