https://doi.org/10.1140/epjc/s10052-024-13339-8
Regular Article - Theoretical Physics
Estimation of the Hubble constant using Gaussian process regression and viable alternatives
1
Department of Statistics and Operations Research, University of Malta, MSD 2080, Msida, Malta
2
Institute of Space Sciences and Astronomy, University of Malta, MSD 2080, Msida, Malta
3
Department of Physics, University of Malta, MSD 2080, Msida, Malta
Received:
13
June
2024
Accepted:
4
September
2024
Published online:
27
September
2024
A well-known problem in cosmology is the ‘Hubble tension’ problem, i.e. different estimates for the Hubble constant are not concordant with each other. This work investigates different statistical methods for estimating this value using cosmic chronometer, type Ia supernova and baryonic acoustic data. We start by making use of methods already established in the literature for this purpose, namely Gaussian process regression and Markov chain Monte Carlo (MCMC) methods based on the concordance CDM model. We also consider two novel approaches; the first makes use of non-parametric MCMC inference on the hyperparameters of a Gaussian process kernel, independently of any cosmological model. The second approach is Student’s t-process regression, which is a generalised version of Gaussian process regression that makes use of the multivariate Student’s t-distribution instead of the multivariate Gaussian distribution. We also consider variants of these two methods which account for heteroscedasticity within the data. A comparison of the different approaches is made. In particular, the model-independent techniques investigated mostly agree with predictions based on the CDM model. Moreover, Gaussian process regression is highly sensitive to the prior specification, while Student’s t-process regression and the heteroscedastic variants of both methods are more robust to this. Student’s t-process regression and both heteroscedastic models suggest a lower value of the Hubble constant. Across all the estimates obtained for the Hubble constant within this work, the median value is km s Mpc.
© The Author(s) 2024
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