Publication detail

Electromagnetic modeling of rat’s brain: comparison of models and solvers

KUŘÁTKO, D. RAIDA, Z. CUPAL, M. LAČÍK, J. WÓJCIK, D. KOUDELKA, V. VEJMOLA, Č. PIORECKÁ V. JIŘÍČEK, S. PÁLENÍČEK, T. BRUNOVSKÝ, M.

Original Title

Electromagnetic modeling of rat’s brain: comparison of models and solvers

English Title

Electromagnetic modeling of rat’s brain: comparison of models and solvers

Type

conference paper

Language

en

Original Abstract

Reliable inverse imaging of source currents in rat’s brain requires sufficiently accurate and CPU-time moderate forward models of fields to calibrate inverse solvers. In this paper, we compare different mathematical formulations of electromagnetic problem related to the analysis of brain waves (static, quasi-static, full-wave) and various meshes differing in density, type and geometrical accuracy. Comparison of results indicates the necessary accuracy of the model to calibrate the imaging procedure properly.

English abstract

Reliable inverse imaging of source currents in rat’s brain requires sufficiently accurate and CPU-time moderate forward models of fields to calibrate inverse solvers. In this paper, we compare different mathematical formulations of electromagnetic problem related to the analysis of brain waves (static, quasi-static, full-wave) and various meshes differing in density, type and geometrical accuracy. Comparison of results indicates the necessary accuracy of the model to calibrate the imaging procedure properly.

Keywords

Electromagnetic modeling, rat's brain, inverse imaging, calibration.

Released

21.11.2018

Publisher

Stellenbosch University

Location

Stellenbosch

ISBN

978-1-5386-7845-9

Book

CEMi 2018 Proceedings

Pages from

1

Pages to

2

Pages count

2

BibTex


@inproceedings{BUT151087,
  author="David {Kuřátko} and Zbyněk {Raida} and Miroslav {Cupal} and Jaroslav {Lačík} and Daniel Krzysztof {Wójcik}",
  title="Electromagnetic modeling of rat’s brain: comparison of models and solvers",
  annote="Reliable inverse imaging of source currents in rat’s brain requires sufficiently accurate and CPU-time moderate forward models of fields to calibrate inverse solvers. In this paper, we compare different mathematical formulations of electromagnetic problem related to the analysis of brain waves (static, quasi-static, full-wave) and various meshes differing in density, type and geometrical accuracy. Comparison of results indicates the necessary accuracy of the model to calibrate the imaging procedure properly.",
  address="Stellenbosch University",
  booktitle="CEMi 2018 Proceedings",
  chapter="151087",
  howpublished="electronic, physical medium",
  institution="Stellenbosch University",
  year="2018",
  month="november",
  pages="1--2",
  publisher="Stellenbosch University",
  type="conference paper"
}