Modified Radon transform inversion using moments

Hayoung Choi; Victor Ginting; Farhad Jafari; Robert Mnatsakanov

doi:10.1515/jiip-2018-0090

Modified Radon transform inversion using moments

Hayoung Choi, Victor Ginting, Farhad Jafari, Robert Mnatsakanov

Research output: Contribution to journal › Article › peer-review

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Abstract

Moment methods to reconstruct images from their Radon transforms are both natural and useful. They can be used to suppress noise or other spurious effects and can lead to highly efficient reconstructions from relatively few projections. We establish a modified Radon transform (MRT) via convolution with a mollifier and obtain its inversion formula. The relationship of the moments of the Radon transform and the moments of its modified Radon transform is derived, and MRT data is used to provide a uniform approximation to the original density function. The reconstruction algorithm is implemented, and a simple density function is reconstructed from moments of its modified Radon transform. Numerical convergence of this reconstruction is shown to agree with the derived theoretical results.

Original language	English (US)
Pages (from-to)	1-15
Number of pages	15
Journal	Journal of Inverse and Ill-Posed Problems
Volume	28
Issue number	1
DOIs	https://doi.org/10.1515/jiip-2018-0090
State	Published - Feb 1 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 Walter de Gruyter GmbH, Berlin/Boston.

Keywords

Radon transform
approximation
convolution
inverse problems
moment problems
tomography

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AU - Ginting, Victor

AU - Jafari, Farhad

AU - Mnatsakanov, Robert

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N2 - Moment methods to reconstruct images from their Radon transforms are both natural and useful. They can be used to suppress noise or other spurious effects and can lead to highly efficient reconstructions from relatively few projections. We establish a modified Radon transform (MRT) via convolution with a mollifier and obtain its inversion formula. The relationship of the moments of the Radon transform and the moments of its modified Radon transform is derived, and MRT data is used to provide a uniform approximation to the original density function. The reconstruction algorithm is implemented, and a simple density function is reconstructed from moments of its modified Radon transform. Numerical convergence of this reconstruction is shown to agree with the derived theoretical results.

AB - Moment methods to reconstruct images from their Radon transforms are both natural and useful. They can be used to suppress noise or other spurious effects and can lead to highly efficient reconstructions from relatively few projections. We establish a modified Radon transform (MRT) via convolution with a mollifier and obtain its inversion formula. The relationship of the moments of the Radon transform and the moments of its modified Radon transform is derived, and MRT data is used to provide a uniform approximation to the original density function. The reconstruction algorithm is implemented, and a simple density function is reconstructed from moments of its modified Radon transform. Numerical convergence of this reconstruction is shown to agree with the derived theoretical results.

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Modified Radon transform inversion using moments

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