Training Datasets Generation for Machine Learning: Application to Vision Based Navigation

Jérémy Lebreton, Ingo Ahrns, Roland Brochard, Christoph Haskamp, Matthieu Le Goff, Nicolas Menga, Nicolas Ollagnier, Ralf Regele, Francesco Capolupo, Massimo Casasco
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Abstract

Vision Based Navigation consists in utilizing cameras as precision sensors for GNC after extracting information from images. To enable the adoption of machine learning for space applications, one of obstacles is the demonstration that available training datasets are adequate to validate the algorithms. The objective of the study is to generate datasets of images and metadata suitable for training machine learning algorithms. Two use cases were selected and a robust methodology was developed to validate the datasets including the ground truth. The first use case is in-orbit rendezvous with a man-made object: a mockup of satellite ENVISAT. The second use case is a Lunar landing scenario. Datasets were produced from archival datasets (Chang'e 3), from the laboratory at DLR TRON facility and at Airbus Robotic laboratory, from SurRender software high fidelity image simulator using Model Capture and from Generative Adversarial Networks. The use case definition included the selection of algorithms as benchmark: an AI-based pose estimation algorithm and a dense optical flow algorithm were selected. Eventually it is demonstrated that datasets produced with SurRender and selected laboratory facilities are adequate to train machine learning algorithms.
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为机器学习生成训练数据集:基于视觉的导航应用
基于视觉的导航包括在从图像中提取信息后,利用照相机作为精密传感器进行全球导航。要在空间应用中采用机器学习,障碍之一是证明现有的训练数据集足以验证算法。这项研究的目标是生成适合训练机器学习算法的图像和元数据数据集。我们选择了两个使用案例,并开发了一套可靠的方法来验证数据集,包括地面实况。第一个用例是在轨与人造物体交会:ENVISAT 卫星的模拟图。数据集来自档案数据集(嫦娥三号)、德国宇航中心 TRON 设施实验室和空中客车机器人实验室、使用模型捕捉的 SurRender 软件高保真图像模拟器以及生成式对抗网络。用例定义包括选择算法作为基准:选择了基于人工智能的姿态估计算法和密集光流算法。最终证明,使用 SurRender 和选定的实验室设施生成的数据集足以训练机器学习算法。
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