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


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 by transfer learning using deep neural networks. This results in the identification of 109,956 new craters, which is more than a dozen times greater than the initial number of recognized craters. The formation systems of 18,996 newly detected craters larger than 8?km are estimated. Here, a new lunar crater database for the mid- and low-latitude regions of the Moon is derived and distributed to the planetary community together with the related data analysis.

SUBMITTER: Yang C 

PROVIDER: S-EPMC7755906 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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

Yang Chen C   Zhao Haishi H   Bruzzone Lorenzo L   Benediktsson Jon Atli JA   Liang Yanchun Y   Liu Bin B   Zeng Xingguo X   Guan Renchu R   Li Chunlai C   Ouyang Ziyuan Z  

Nature communications 20201222 1


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 by transfer learning using deep neural networks. T  ...[more]

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