Comparing DNN Performance to Justify Using Transference of Training for the Autonomous Aerial Refueling Task

2023 International Conference on Unmanned Aircraft Systems (ICUAS) Pub Date : 2023-06-06 DOI:10.1109/ICUAS57906.2023.10156120

Dillon Miller, Violet Mwaffo, Donald H. Costello

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Abstract

In an effort to modernize the fleet, the United States Navy is looking to significantly increase the number of unmanned aircraft deployed within a carrier air wing. Yet, no method to certify the autonomous refueling of uncrewed aerial platforms has been publicly released. Ongoing research efforts at the United States Naval Academy (USNA) are investigating certification evidence that will allow a deep neural network (DNN) to enable the autonomous aerial refueling task. This poster paper highlights an investigation into developmental flight test videos of an aircraft refueling from a KC-130 tanker and from a tanker configured F/A-18 jet. In this paper, we evaluate a KC-130 trained DNN and a F/A-18 trained DNN against a F/A-18 data set that was not used in training either DNN. This procedure was aimed at determining whether the resources required to gather training data on each tanker aircraft taken separately are justified or if the performance of the DNN trained on a similar aircraft dataset is sufficient for the task.

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比较DNN性能以证明在自主空中加油任务中使用迁移训练的合理性

为了实现舰队的现代化，美国海军正在寻求大幅增加航母舰载机联队部署的无人机数量。然而，目前还没有公开发布验证无人空中平台自主加油的方法。美国海军学院(USNA)正在进行的研究工作正在调查将允许深度神经网络(DNN)实现自主空中加油任务的认证证据。这张海报强调了对一架飞机从KC-130加油机和一架加油机配置的F/ a -18喷气式飞机加油的发展飞行测试视频的调查。在本文中，我们针对未用于训练DNN的F/ a -18数据集评估了KC-130训练的DNN和F/ a -18训练的DNN。该程序旨在确定在每架加油机上单独收集训练数据所需的资源是否合理，或者在类似飞机数据集上训练的DNN的性能是否足以完成任务。

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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2023 International Conference on Unmanned Aircraft Systems (ICUAS)

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