Regularization of DT-MR images using a successive Fermat median filtering method

Kiwoon Kwon; Dongyoun Kim; Sunghee Kim; Insung Park; Jaewon Jeong; Taehwan Kim; Cheolpyo Hong; Bongsoo Han

doi:10.1088/0031-9155/53/10/005

Regularization of DT-MR images using a successive Fermat median filtering method

Kiwoon Kwon, Dongyoun Kim, Sunghee Kim, Insung Park, Jaewon Jeong, Taehwan Kim, Cheolpyo Hong, Bongsoo Han

Department of Mathematics

Yonsei University Mirae Campus

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

5 Scopus citations

Abstract

Tractography using diffusion tensor magnetic resonance imaging (DT-MRI) is a method to determine the architecture of axonal fibers in the central nervous system by computing the direction of greatest diffusion in the white matter of the brain. To reduce the noise in DT-MRI measurements, a tensor-valued median filter, which is reported to be denoising and structure preserving in the tractography, is applied. In this paper, we proposed the successive Fermat (SF) method, successively using Fermat point theory for a triangle contained in the two-dimensional plane, as a median filtering method. We discussed the error analysis and numerical study about the SF method for phantom and experimental data. By considering the computing time and the image quality aspects of the numerical study simultaneously, we showed that the SF method is much more efficient than the simple median (SM) and gradient descents (GD) methods.

Original language	English
Pages (from-to)	2523-2536
Number of pages	14
Journal	Physics in Medicine and Biology
Volume	53
Issue number	10
DOIs	https://doi.org/10.1088/0031-9155/53/10/005
State	Published - 21 May 2008

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10.1088/0031-9155/53/10/005

Cite this

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abstract = "Tractography using diffusion tensor magnetic resonance imaging (DT-MRI) is a method to determine the architecture of axonal fibers in the central nervous system by computing the direction of greatest diffusion in the white matter of the brain. To reduce the noise in DT-MRI measurements, a tensor-valued median filter, which is reported to be denoising and structure preserving in the tractography, is applied. In this paper, we proposed the successive Fermat (SF) method, successively using Fermat point theory for a triangle contained in the two-dimensional plane, as a median filtering method. We discussed the error analysis and numerical study about the SF method for phantom and experimental data. By considering the computing time and the image quality aspects of the numerical study simultaneously, we showed that the SF method is much more efficient than the simple median (SM) and gradient descents (GD) methods.",

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AU - Kwon, Kiwoon

AU - Kim, Dongyoun

AU - Kim, Sunghee

AU - Park, Insung

AU - Jeong, Jaewon

AU - Kim, Taehwan

AU - Hong, Cheolpyo

AU - Han, Bongsoo

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AB - Tractography using diffusion tensor magnetic resonance imaging (DT-MRI) is a method to determine the architecture of axonal fibers in the central nervous system by computing the direction of greatest diffusion in the white matter of the brain. To reduce the noise in DT-MRI measurements, a tensor-valued median filter, which is reported to be denoising and structure preserving in the tractography, is applied. In this paper, we proposed the successive Fermat (SF) method, successively using Fermat point theory for a triangle contained in the two-dimensional plane, as a median filtering method. We discussed the error analysis and numerical study about the SF method for phantom and experimental data. By considering the computing time and the image quality aspects of the numerical study simultaneously, we showed that the SF method is much more efficient than the simple median (SM) and gradient descents (GD) methods.

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Regularization of DT-MR images using a successive Fermat median filtering method

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