Machine learning on difference image analysis: A comparison of methods for transient detection

SÁNCHEZ, B.; DOMÍNGUEZ R., M.J.; LARES, M.; BEROIZ, M.; CABRAL, J.B.; GUROVICH, S.; QUIÑONES, C.; ARTOLA, R.; COLAZO, C.; SCHNEITER, M.; GIRARDINI, C.; TORNATORE, M.; NILO CASTELLÓN, J.L.; GARCÍA LAMBAS, D.; DÍAZ, M.C.

Astronomy and Computing

Elsevier

Lugar: Amsterdam; Año: 2019 vol. 28

2213-1337

We present a comparison of several Difference Image Analysis (DIA) techniques, in combination with Machine Learning (ML) algorithms, applied to the identification of optical transients associated to gravitational wave events. Each technique is assessed based on the scoring metrics of Precision, Recall, and their harmonic mean F1, measured on the DIA results as standalone techniques, and also in the results after the application of ML algorithms, on transient source injections over simulated and real data. These simulations cover a wide range of instrumental configurations, as well as a variety of scenarios of observation conditions, by exploring a multi dimensional set of relevant parameters, allowing us to extract general conclusions related to the identification of transient astrophysical events. The newest subtraction techniques, and particularly the methodology published in Zackay et al., (2016) are implemented on an Open Source Python package, named properimage, suitable for many other astronomical image analyses. This together, with the ML libraries we describe, provides an effective transient detection software pipeline. Here we study the effects of the different ML techniques, and the relative feature importances for classification of transient candidates, and propose an optimal combined strategy. This constitutes the basic elements of pipelines that could be applied in searches of electromagnetic counterparts to GW sources.