Gaussian Process for Tomography

03/29/2021
by   Agnimitra Dasgupta, et al.
0

Tomographic reconstruction, despite its revolutionary impact on a wide range of applications, suffers from its ill-posed nature in that there is no unique solution because of limited and noisy measurements. Traditional optimization-based reconstruction relies on regularization to address this issue; however, it faces its own challenge because the type of regularizer and choice of regularization parameter are a critical but difficult decision. Moreover, traditional reconstruction yields point estimates for the reconstruction with no further indication of the quality of the solution. In this work we address these challenges by exploring Gaussian processes (GPs). Our proposed GP approach yields not only the reconstructed object through the posterior mean but also a quantification of the solution uncertainties through the posterior covariance. Furthermore, we explore the flexibility of the GP framework to provide a robust model of the information across various length scales in the object, as well as the complex noise in the measurements. We illustrate the proposed approach on both synthetic and real tomography images and show its unique capability of uncertainty quantification in the presence of various types of noise, as well as reconstruction comparison with existing methods.

READ FULL TEXT

Please sign up or login with your details

Forgot password? Click here to reset