Novel precision enhancement algorithm with reduced image noise in cosmic muon tomography applications
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Published:2016
Issue:1
Volume:31
Page:51-64
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ISSN:1451-3994
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Container-title:Nuclear Technology and Radiation Protection
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language:en
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Short-container-title:NUCL TECH RAD PROT
Author:
Lee Sangkyu1,
Foley Amanda1,
Jevremovic Tatjana1
Affiliation:
1. University of Utah, The Utah Nuclear Engineering Program, Salt Lake City, USA
Abstract
In this paper, we present a new algorithm that improves muon-based generated
tomography images with increased precision and reduced image noise applicable
to the detection of nuclear materials. Cosmic muon tomography is an
interrogation-based imaging technique that, over the last decade, has been
frequently employed for the detection of high-Z materials. This technique
exploits a magnitude of cosmic muon scattering angles in order to construct
an image. The scattering angles of the muons striking the geometry of
interest are non-uniform, as cosmic muons vary in energy. The randomness of
the scattering angles leads to significant noise in the muon tomography
image. GEANT4 is used to numerically create data on the momenta and positions
of scattered muons in a predefined geometry that includes high-Z materials.
The numerically generated information is then processed with the point of
closest approach reconstruction method to construct a muon tomography image;
statistical filters are then developed to refine the point of closest
approach reconstructed images. The filtered images exhibit reduced noise and
enhanced precision when attempting to identify the presence of high-Z
materials. The average precision from the point of closest approach
reconstruction method is 13 %; for the integrated method, 88 %. The filtered
image, therefore, results in a seven-fold improvement in precision compared
to the point of closest approach reconstructed image.
Publisher
National Library of Serbia
Subject
Safety, Risk, Reliability and Quality,Nuclear Energy and Engineering
Cited by
1 articles.
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