Unsupervised Distribution Learning for Lunar Surface Technosignature Detection
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Date
2020-07-30
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Conference Poster
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Abstract
In this work we show that modern data-driven machine learning techniques can be successfully applied on lunar surface remote sensing data to learn, in an unsupervised way, sufficiently good representations of the data distribution to enable lunar technosignature and anomaly detection. In particular we have trained an unsupervised distribution learning model to find the landing module of the Apollo 15 landing site in a testing dataset, with no specific model or hyperparameter tuning .
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published
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American Geophysical Union
Event
TechnoClimes 2020
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09680 - Quanz, Sascha Patrick / Quanz, Sascha Patrick
03465 - Löw, Simon (emeritus) / Löw, Simon (emeritus)
Notes
Due to the Coronavirus (COVID-19) the conference was conducted virtually.