Lunar impact crater identification and age estimation with Chang’E data by deep and transfer learning

Chen Yang; Haishi Zhao; Lorenzo Bruzzone; Jon Atli Benediktsson; Yanchun Liang; Bin Liu; Xingguo Zeng; Renchu Guan; Chunlai Li; Ziyuan Ouyang

doi:https://doi.org/10.1038/s41467-020-20215-y

doi.org/10.1038/s41467-020-20215-y

Lunar impact crater identification and age estimation with Chang’E data by deep and transfer learning

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..., Ziyuan Ouyang

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Nature Communications16.60

Volume: 11, Issue: 1

Published: Dec 22, 2020

Abstract

Impact craters, which can be considered the lunar equivalent of fossils, are the most dominant lunar surface features and record the history of the Solar System. We address the problem of automatic crater detection and age estimation. From initially small numbers of recognized craters and dated craters, i.e., 7895 and 1411, respectively, we progressively identify new craters and estimate their ages with Chang’E data and stratigraphic information...

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Paper Details

Title

Lunar impact crater identification and age estimation with Chang’E data by deep and transfer learning

DOI

doi.org/10.1038/s41467-020-20215-y

Published Date

Dec 22, 2020

Journal

Nature Communications

Volume

11

Issue

1

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