UAV Inspection of Large Components: Determination of Alternative Inspection Points and Online Route Optimization

2023 IEEE/ACM 5th International Workshop on Robotics Software Engineering (RoSE) Pub Date : 2023-05-01 DOI:10.1109/RoSE59155.2023.00012

Martin Schörner, Constantin Wanninger, Raphael Katschinsky, Simon Hornung, Christian Eymüller, Alexander Poeppel, W. Reif

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Abstract

Automation is playing an increasing role in the field of quality assurance. For the visual inspection of larger assemblies such as aircraft fuselages or ship hulls, the use of UAVs is an option. This paper deals with one aspect of the UAV-supported inspection of assemblies in production. Here, newly added components have to be checked for correct assembly. The planning of the shortest possible route from which all components to be inspected can be viewed as well as the estimation of the UAV’s position relative to the component have already been presented in previous work. We propose strategies that can be used if an inspection point cannot be reached by the UAV or the component to be inspected cannot be seen by the UAV’s camera from the inspection point. For this purpose, we generate alternative inspection points that can be used if errors occur during the inspection from the original inspection point. To achieve this, we present a metric that can be used to select an alternative inspection point that is as suitable as possible. We conclude by demonstrating how this strategy works by evoking different failure cases in a simulated environment.

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大型部件无人机巡检:备选检测点确定与在线路径优化

自动化在质量保证领域发挥着越来越重要的作用。对于大型组件的目视检查，如飞机机身或船体，使用无人机是一种选择。本文研究了生产中无人机辅助装配检测的一个方面。在这里，必须检查新增加的部件是否装配正确。在之前的工作中，已经提出了最短路径的规划以及无人机相对于组件的位置的估计，从而可以查看所有待检查组件。如果无人机无法到达检查点，或者从检查点上无人机的摄像头无法看到待检查的部件，我们提出了可以使用的策略。出于这个目的，我们生成了可替换的检查点，如果在从原始检查点开始的检查过程中出现错误，可以使用这些检查点。为了实现这一点，我们提出了一个度量，可以用来选择一个尽可能合适的替代检查点。最后，我们通过在模拟环境中调用不同的故障案例来演示此策略的工作原理。

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

2023 IEEE/ACM 5th International Workshop on Robotics Software Engineering (RoSE)

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