Classification of Planetary Nebulae through Deep Transfer Learning

This study investigate the effectiveness of using Deep Learning (DL) for the classification of planetary nebulae (PNe). It focusses on distinguishing PNe from other types of objects, as well as their morphological classification. We adopted the deep transfer learning approach using three ImageNet pre-trained algorithms. This study was conducted using images from the Hong Kong/Australian Astronomical Observatory/Strasbourg Observatory H-alpha Planetary Nebula research platform database (HASH DB) and the Panoramic Survey Telescope and Rapid Response System (Pan-STARRS). We found that the algorithm has high success in distinguishing True PNe from other types of objects even without any parameter tuning. The Matthews correlation coefficient is 0.9. Our analysis shows that DenseNet201 is the most effective DL algorithm. For the morphological classification, we found for three classes, Bipolar, Elliptical and Round, half of objects are correctly classified. Further improvement may require more data and/or training. We discuss the trade-offs and potential avenues for future work and conclude that deep transfer learning can be utilized to classify wide-field astronomical images.

[1]  Colin Jacobs,et al.  Surveying the reach and maturity of machine learning and artificial intelligence in astronomy , 2019, WIREs Data Mining Knowl. Discov..

[2]  S. O. Physics,et al.  The SuperCOSMOS Sky Survey – I. Introduction and description , 2001, astro-ph/0108286.

[3]  Nsw,et al.  Multiwavelength diagnostic properties of Galactic planetary nebulae detected by the GLIMPSE-I , 2010, 1012.2370.

[4]  Q. Parker,et al.  New Galactic Planetary nebulae selected by radio and multiwavelength characteristics , 2018, Monthly Notices of the Royal Astronomical Society.

[5]  Guy Lapalme,et al.  A systematic analysis of performance measures for classification tasks , 2009, Inf. Process. Manag..

[6]  G. Desvignes,et al.  SEARCHING FOR PULSARS USING IMAGE PATTERN RECOGNITION , 2013, 1309.0776.

[7]  Ivan Bojicic,et al.  HASH: the Hong Kong/AAO/Strasbourg Hα planetary nebula database , 2016, 1603.07042.

[8]  Richard M. Feder,et al.  Multiband Probabilistic Cataloging: A Joint Fitting Approach to Point-source Detection and Deblending , 2019, The Astronomical Journal.

[9]  Gui-Bin Bian,et al.  Performance Analysis of Google Colaboratory as a Tool for Accelerating Deep Learning Applications , 2018, IEEE Access.

[10]  Richard A. Shaw Shape, structure, and morphology in planetary nebulae , 2011, Proceedings of the International Astronomical Union.

[11]  Quentin A. Parker,et al.  A Preferred Orientation Angle for Bipolar Planetary Nebulae , 2020 .

[12]  M. Faúndez-Abans,et al.  Classification of planetary nebulae by cluster analysis and artificial neural networks , 1996 .

[13]  N. Hambly,et al.  The AAO/UKST SuperCOSMOS Hα survey , 2005, astro-ph/0506599.

[14]  L. Guzman-Ramirez,et al.  Compact planetary nebulae: improved IR diagnostic criteria based on classification tree modelling , 2019, Monthly Notices of the Royal Astronomical Society.

[15]  Martin G. Cohen,et al.  THE WIDE-FIELD INFRARED SURVEY EXPLORER (WISE): MISSION DESCRIPTION AND INITIAL ON-ORBIT PERFORMANCE , 2010, 1008.0031.

[16]  N. Hambly,et al.  The SuperCOSMOS Sky Survey . Paper I : Introduction and Description , 2001 .

[17]  Michael S. Bernstein,et al.  ImageNet Large Scale Visual Recognition Challenge , 2014, International Journal of Computer Vision.

[18]  Hugo E. Schwarz,et al.  Morphological populations of planetary nebulae: which progenitors? 1. Comparative properties of bipolar nebulae , 1994 .

[19]  Sun Kwok On the Origin of Morphological Structures of Planetary Nebulae , 2018, Galaxies.

[20]  H. J. Farnhill,et al.  The VST Photometric Hα Survey of the Southern Galactic Plane and Bulge (VPHAS , 2014, 1402.7024.

[21]  P. H. Barchi,et al.  Machine and Deep Learning applied to galaxy morphology - A comparative study , 2019, Astron. Comput..

[22]  Massimo Stiavelli,et al.  The Hubble Ultra Deep Field , 2003, astro-ph/0607632.

[23]  Bruce Balick,et al.  Shapes and Shaping of Planetary Nebulae , 2002 .