Uncertainty Quantification of Density Reconstruction Using MCMC Method in High-Energy X-ray Radiography
Year: 2020
Author: Xinge Li, Haibo Xu, Na Zheng, Qinggang Jia, Tongxiang Gu, Suhua Wei
Communications in Computational Physics, Vol. 27 (2020), Iss. 5 : pp. 1485–1504
Abstract
High-energy X-ray radiography is a measuring technique for quantitative measurement and diagnosis of the object and its internal structure. Tomographic reconstruction determines the geometric and physical properties of the object according to the energy distribution on the imaging plane. Considering the noise and blur in the process of radiographing, we construct a general reconstruction model for the axisymmetric single image photographic system. This inverse problem is then cast within a statistical framework in order to compute volumetric object densities from X-ray radiographs and to quantify uncertainties in the reconstruction. A hierarchical Bayesian model is developed with a likelihood based on a Gaussian noise model and with priors placed on the unknown nonnegative density profile, the precision matrix, and two scale parameters. This results in a joint posterior distribution, which can be readily sampled using the Markov chain Monte Carlo (MCMC) method. To study the role of hyperparameters and their sensitivity analysis, a wide variety of tests were conducted which led to a number of definitive conclusions. Results of the density reconstructions and pointwise uncertainty estimates are presented for simulated signals with various physical factors in the imaging process included.
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Journal Article Details
Publisher Name: Global Science Press
Language: English
DOI: https://doi.org/10.4208/cicp.OA-2019-0060
Communications in Computational Physics, Vol. 27 (2020), Iss. 5 : pp. 1485–1504
Published online: 2020-01
AMS Subject Headings: Global Science Press
Copyright: COPYRIGHT: © Global Science Press
Pages: 20
Keywords: Inverse problem density reconstruction uncertainty quantification Bayesian inference MCMC method.
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