Detail publikace

Image Reconstruction by EIT with Usage NMR

Originální název

Image Reconstruction by EIT with Usage NMR

Anglický název

Image Reconstruction by EIT with Usage NMR

Jazyk

en

Originální abstrakt

Paper presents the new proposal of a conductivity reconstruction inside an investigated sample. The principle of the recovering conductivity distribution is based on using measured values of magnetic field which produced the current injecting into the testing sample. The magnetic field can be measured near the testing sample in different direction. Based on simulation results the possibility of using different components of magnetic field as well as the influence of the position measured points is discussed.

Anglický abstrakt

Paper presents the new proposal of a conductivity reconstruction inside an investigated sample. The principle of the recovering conductivity distribution is based on using measured values of magnetic field which produced the current injecting into the testing sample. The magnetic field can be measured near the testing sample in different direction. Based on simulation results the possibility of using different components of magnetic field as well as the influence of the position measured points is discussed.

BibTex


@article{BUT73098,
  author="Tomáš {Kříž} and Karel {Bartušek} and Jarmila {Dědková}",
  title="Image Reconstruction by EIT with Usage NMR",
  annote="Paper presents the new proposal of a conductivity reconstruction inside an investigated sample. The principle of the recovering conductivity distribution is based on using measured values of magnetic field which produced the current injecting into the testing sample. The magnetic field can be measured near the testing sample in different direction. Based on simulation results the possibility of using different components of magnetic field as well as the influence of the position measured points is discussed.",
  address="The Electromagnetics Academy",
  chapter="73098",
  institution="The Electromagnetics Academy",
  number="2011",
  volume="2011",
  year="2011",
  month="march",
  pages="329--333",
  publisher="The Electromagnetics Academy",
  type="journal article"
}