Publication result detail

Interpolation of 3D Magnetic Resonance Data

MIKULKA, J.; GESCHEIDTOVÁ, E.; BARTUŠEK, K.

Original Title

Interpolation of 3D Magnetic Resonance Data

English Title

Interpolation of 3D Magnetic Resonance Data

Type

Peer-reviewed article not indexed in WoS or Scopus

Original Abstract

This article deals with three-dimensional reconstruction methods of nuclear magnetic resonance images. The testing images were observed by tomography with basic magnetic field of 4.7T at the Institute of Scientific Instruments (Academy of Sciences of the Czech Republic). The 20 slices of the test phantom were acquired. Two methods were found with the aim of getting utmost information about the shape of the testing phantom. One possible way is to increase the count of the sensed slices, but it implies decreasing of the signal to noise ratio. The second approach is finding the compromise between the effective count of slices and the following interpolation of other slices between the sensed ones. The both approaches were compared. Only 10 slices were used to compute the in-between others. It is better to use this approach because the computed slices can be compared with the real slices obtained by MR tomography. The results are described in the article. The images were interpolated in order to improve the following three-dimensional model creation.

English abstract

This article deals with three-dimensional reconstruction methods of nuclear magnetic resonance images. The testing images were observed by tomography with basic magnetic field of 4.7T at the Institute of Scientific Instruments (Academy of Sciences of the Czech Republic). The 20 slices of the test phantom were acquired. Two methods were found with the aim of getting utmost information about the shape of the testing phantom. One possible way is to increase the count of the sensed slices, but it implies decreasing of the signal to noise ratio. The second approach is finding the compromise between the effective count of slices and the following interpolation of other slices between the sensed ones. The both approaches were compared. Only 10 slices were used to compute the in-between others. It is better to use this approach because the computed slices can be compared with the real slices obtained by MR tomography. The results are described in the article. The images were interpolated in order to improve the following three-dimensional model creation.

Keywords

interpolation, magnetic resonance, image processing

Key words in English

interpolation, magnetic resonance, image processing

Authors

MIKULKA, J.; GESCHEIDTOVÁ, E.; BARTUŠEK, K.

RIV year

2012

Released

20.03.2011

ISBN

1559-9450

Periodical

Progress In Electromagnetics

Volume

2011

Number

2011

State

United States of America

Pages from

639

Pages to

642

Pages count

4

BibTex

@article{BUT36271,
  author="Jan {Mikulka} and Eva {Gescheidtová} and Karel {Bartušek}",
  title="Interpolation of 3D Magnetic Resonance Data",
  journal="Progress In Electromagnetics",
  year="2011",
  volume="2011",
  number="2011",
  pages="639--642",
  issn="1559-9450"
}