new publication – The PAU Survey: Photometric redshifts using transfer learning from simulations


In this paper, we introduce the DEEPZ deep learning photometric redshift (photo-z) code. As a test case, we apply the code to the PAU survey (PAUS) data in the COSMOS field. DEEPZ reduces the σ68 scatter statistic by 50 per cent at iAB = 22.5 compared to existing algorithms. This improvement is achieved through various methods, including transfer learning from simulations where the training set consists of simulations as well as observations, which reduces the need for training data. The redshift probability distribution is estimated with a mixture density network (MDN), which produces accurate redshift distributions. Our code includes an autoencoder to reduce noise and extract features from the galaxy SEDs. It also benefits from combining multiple networks, which lowers the photo-z scatter by 10 per cent. Furthermore, training with randomly constructed coadded fluxes adds information about individual exposures, reducing the impact of photometric outliers. In addition to opening up the route for higher redshift precision with narrow bands, these machine learning techniques can also be valuable for broad-band surveys.

Monthly Notices of the Royal Astronomical Society, Volume 497, Issue 4, pp.4565-4579
Pub Date:
August 2020
  • methods: data analysis;
  • techniques: photometric;
  • galaxies: distances and redshifts;
  • Astrophysics – Astrophysics of Galaxies;
  • Astrophysics – Cosmology and Nongalactic Astrophysics
E-Print Comments:
Accepted version; doi:10.1093/mnras/staa2265