Using Multiple Deep Neural Networks Platform to Detect Different Types of Potential Faults in Unmanned Aerial Vehicles

IF 0.9 Q3 ENGINEERING, AEROSPACE Journal of Aerospace Technology and Management Pub Date : 2021-02-15 DOI:10.1590/JATM.V13.1186

Ahmad Alos, Z. Dahrouj

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引用次数: 1

Abstract

Many researchers developed new algorithms to predict the faults of unmanned aerial vehicles (UAV). These algorithms detect anomalies in the streamed data of the UAV and label them as potential faults. Most of these algorithms consider neither the complex relationships among the UAV variables nor the temporal patterns of the previous instances, which leaves a potential opportunity for new ideas. A new method for analyzing the relationships and the temporal patterns of every two variables to detect the potentially defected sensors. The proposed method depends on a new platform, which is composed of multiple deep neural networks. The method starts by building and training this platform. The training step requires reshaping the dataset into a set of subdatasets. Each new subdataset is used to train one deep neural network. In the testing phase, the method reads new instances of the UAV testing dataset. The output of the algorithm is the predicted potential faults. The proposed approach is evaluated and compared it with other well-known algorithms. The proposed approach showed promising results in predicting different kinds of faults.

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基于多个深度神经网络平台的无人机潜在故障检测

许多研究者开发了新的算法来预测无人机(UAV)的故障。这些算法检测无人机流数据中的异常，并将其标记为潜在故障。这些算法大多既不考虑无人机变量之间的复杂关系，也不考虑以前实例的时间模式，这为新思想留下了潜在的机会。提出了一种分析每两个变量的关系和时间模式以检测潜在缺陷传感器的新方法。该方法依赖于一个由多个深度神经网络组成的新平台。方法从构建和训练这个平台开始。训练步骤需要将数据集重塑为一组子数据集。每个新的子数据集用于训练一个深度神经网络。在测试阶段，该方法读取无人机测试数据集的新实例。该算法的输出是预测的潜在故障。对该方法进行了评价，并与其他已知算法进行了比较。该方法在预测不同类型的断层方面显示出良好的效果。

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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