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31 May 2022 Efficient ATR using contrastive learning
Attiano Purpura-Pontoniere, Abdullah-Al-Zubaer Imran, Tarun Bhattacharya
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Proceedings Volume 12096, Automatic Target Recognition XXXII; 120960H (2022) https://doi.org/10.1117/12.2616822
Event: SPIE Defense + Commercial Sensing, 2022, Orlando, Florida, United States
Abstract
Automatic Target Recognition (ATR) is a valuable application of computer vision that traditionally requires copious and tedious labeling through supervised learning. This research explored if ATR can be performed on satellite imagery at a comparable accuracy to a fully supervised baseline model with a considerably smaller subset of data labelled, on the order of 10%, using a recently developed semi-supervised technique, contrastive learning. Supervised contrastive loss was explored and compared to traditional cross entropy loss. Supervised contrastive loss was found to perform significantly better with a subset of the data labelled on the XView dataset, a publicly available dataset of satellite imagery captured with .3 meter ground sampling. The caveats when nothing and everything is labelled were additionally explored.
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Attiano Purpura-Pontoniere, Abdullah-Al-Zubaer Imran, and Tarun Bhattacharya "Efficient ATR using contrastive learning", Proc. SPIE 12096, Automatic Target Recognition XXXII, 120960H (31 May 2022); https://doi.org/10.1117/12.2616822
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KEYWORDS
Satellites
Satellite imaging
Data modeling
Earth observing sensors
Image segmentation
Image classification
Computer vision technology
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