Automatic Detection of Stationary Waves in the Venus Atmosphere Using Deep Generative Models

Minori Narita, Daiki Kimura, T. Imamura
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Abstract

Various anomaly detection methods utilizing different types of images have recently been proposed. However, anomaly detection in the field of planetary science is still done predominantly by the human eye because explainability is crucial in the physical sciences and most of today's anomaly detection methods based on deep learning cannot offer enough. Moreover, preparing a large number of images required for fully utilizing anomaly detection is not always feasible. In this work, we propose a new framework that automatically detects large bow-shaped structures (stationary waves) appearing on the surface of the Venus clouds by applying a variational auto-encoder (VAE) and attention maps to anomaly detection. We also discuss the advantages of using image augmentation. Experiments show that our approach can achieve higher accuracy than the state-of-the-art methods even when the anomaly images are scarce. On the basis of this finding, we discuss anomaly detection frameworks particularly suited to physical science domains.
利用深度生成模型自动探测金星大气中的驻波
近年来,人们提出了利用不同类型图像的各种异常检测方法。然而,行星科学领域的异常检测仍然主要由人眼完成,因为可解释性在物理科学中至关重要,而当今大多数基于深度学习的异常检测方法都无法提供足够的服务。此外,为充分利用异常检测而准备大量图像并不总是可行的。在这项工作中,我们提出了一个新的框架,通过应用变分自编码器(VAE)和注意图进行异常检测,自动检测出现在金星云表面的大型弓形结构(静止波)。我们还讨论了使用图像增强的优点。实验表明,即使在异常图像较少的情况下,我们的方法也能达到比现有方法更高的精度。在此发现的基础上,我们讨论了特别适合物理科学领域的异常检测框架。
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