English

Galaxy And Mass Assembly: Automatic Morphological Classification of Galaxies Using Statistical Learning

Astrophysics of Galaxies 2017-11-21 v2

Abstract

We apply four statistical learning methods to a sample of 79417941 galaxies (z<0.06z<0.06) from the Galaxy and Mass Assembly (GAMA) survey to test the feasibility of using automated algorithms to classify galaxies. Using 1010 features measured for each galaxy (sizes, colours, shape parameters \& stellar mass) we apply the techniques of Support Vector Machines (SVM), Classification Trees (CT), Classification Trees with Random Forest (CTRF) and Neural Networks (NN), returning True Prediction Ratios (TPRs) of 75.8%75.8\%, 69.0%69.0\%, 76.2%76.2\% and 76.0%76.0\% respectively. Those occasions whereby all four algorithms agree with each other yet disagree with the visual classification (`unanimous disagreement') serves as a potential indicator of human error in classification, occurring in 9%\sim9\% of ellipticals, 9%\sim9\% of Little Blue Spheroids, 14%\sim14\% of early-type spirals, 21%\sim21\% of intermediate-type spirals and 4%\sim4\% of late-type spirals \& irregulars. We observe that the choice of parameters rather than that of algorithms is more crucial in determining classification accuracy. Due to its simplicity in formulation and implementation, we recommend the CTRF algorithm for classifying future galaxy datasets. Adopting the CTRF algorithm, the TPRs of the 5 galaxy types are : E, 70.1%70.1\%; LBS, 75.6%75.6\%; S0-Sa, 63.6%63.6\%; Sab-Scd, 56.4%56.4\% and Sd-Irr, 88.9%88.9\%. Further, we train a binary classifier using this CTRF algorithm that divides galaxies into spheroid-dominated (E, LBS \& S0-Sa) and disk-dominated (Sab-Scd \& Sd-Irr), achieving an overall accuracy of 89.8%89.8\%. This translates into an accuracy of 84.9%84.9\% for spheroid-dominated systems and 92.5%92.5\% for disk-dominated systems.

Keywords

Cite

@article{arxiv.1711.06125,
  title  = {Galaxy And Mass Assembly: Automatic Morphological Classification of Galaxies Using Statistical Learning},
  author = {Sreevarsha Sreejith and Sergiy Pereverzyev and Lee S. Kelvin and Francine Marleau and Markus Haltmeier and Judith Ebner and Joss Bland-Hawthorn and Simon P. Driver and Alister W. Graham and Benne W. Holwerda and A. M. Hopkins and J. Liske and Jon Loveday and Amanda J. Moffett and K. A. Pimbblet and Edward N. Taylor and Lingyu Wang and Angus H. Wright},
  journal= {arXiv preprint arXiv:1711.06125},
  year   = {2017}
}

Comments

30 pages, 21 figures, accepted for publication in MNRAS

R2 v1 2026-06-22T22:48:17.129Z