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DenseLens - Using DenseNet ensembles and information criteria for finding and rank-ordering strong gravitational lenses

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Convolutional Neural Networks (CNNs) are the state-of-the-art technique for identifying strong gravitational lenses. Although they are highly successful in recovering genuine lens systems with a high true-positive rate, the unbalanced… Click to show full abstract

Convolutional Neural Networks (CNNs) are the state-of-the-art technique for identifying strong gravitational lenses. Although they are highly successful in recovering genuine lens systems with a high true-positive rate, the unbalanced nature of the data set (lens systems are rare), still leads to a high false positive rate. For these techniques to be successful in upcoming surveys (e.g. with Euclid) most emphasis should be set on reducing false positives, rather than on reducing false negatives. In this paper, we introduce Densely Connected Neural Networks (DenseNets) as the CNN architecture in a new pipeline-ensemble model containing an ensemble of classification CNNs and regression CNNs to classify and rank-order lenses, respectively. We show that DenseNets achieve comparable true positive rates but considerably lower false positive rates (when compared to Residual Networks; ResNets). Thus, we recommend DenseNets for future missions involving large datasets, such as Euclid, where low false positive rates play a key role in the automated follow-up and analysis of large numbers of strong gravitational lens candidates when human vetting is no longer feasible.

Keywords: strong gravitational; gravitational lenses; false positive; positive rates; rank; denselens using

Journal Title: Monthly Notices of the Royal Astronomical Society
Year Published: 2023

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