Publication detail
On the Level of Computational Models in Biomechanics Depending on Gained Data from Ct/Mri and Micro-Ct
MARCIÁN, P. KONEČNÝ, O. BORÁK, L. VALÁŠEK, J. ŘEHÁK, K. KRPALEK, D. FLORIAN, Z.
Czech title
O úrovni výpočtových modelů v biomechanice v závislosti na vstupních datech z CT/MRI a mikro - CT
English title
On the Level of Computational Models in Biomechanics Depending on Gained Data from Ct/Mri and Micro-Ct
Type
conference paper
Language
en
Original abstract
The article is focused on dependence level of computational models in human biomechanics on input information obtained mostly from CT, MRI and micro-CT. From history it is generally known a benefit of information, that Roentgen provided to doctors, thanks to his invention of X ray. Imaging methods in these days provide enough special options for biomechanics to create computational models. The article deals with a concrete solution to some of these problems, e.g. creation of geometry model by image processing method. Software STL Model Creator was programmed to provide a simple creation of these models. The software algorithm and its control are briefly described in this paper. Models obtained in this way can be used for creation of computational models on very high scientific level and with their help to study, e.g. the mechanical interaction of dental implants with a bone.
Czech abstract
Tento článek je zaměřen na úroveň výpočtových modelů v biomechanice člověka na vstupních datech získaných z CT, MRI a mikro CT. Z historie je známý obecný přínos informací, které poskytl lékařům Rentgen díky jeho objevení záření X. Zobrazovací metody v dnešní době umožňují tvorbu výpočtových modelů v biomechanice. Článek se zabývá konkrétním řešením některých dílčích problémů, např. vytvoření modelu geometrie pomocí metod zpracování obrazu. Byl vytvořen speciální software STL Model Creator, který umožňuje rychlou a efektivní tvorbu těchto modelů. V článku jsou popsány jednoduché algoritmy a principy na kterých software funguje. Modely vytvořené tímto softwarem a pomocí metod zpracování obrazu mohou být použity pro tvorbu výpočtových modelů na vysoké vědecké úrovni např. při studiu mechanické interakce dentálních implantátů s kostní tkání.
English abstract
The article is focused on dependence level of computational models in human biomechanics on input information obtained mostly from CT, MRI and micro-CT. From history it is generally known a benefit of information, that Roentgen provided to doctors, thanks to his invention of X ray. Imaging methods in these days provide enough special options for biomechanics to create computational models. The article deals with a concrete solution to some of these problems, e.g. creation of geometry model by image processing method. Software STL Model Creator was programmed to provide a simple creation of these models. The software algorithm and its control are briefly described in this paper. Models obtained in this way can be used for creation of computational models on very high scientific level and with their help to study, e.g. the mechanical interaction of dental implants with a bone.
Keywords in Czech
Počítačová tomografie, magnetická rezonance, mikro – CT, matlab, zpracování obrazu, MKP, Hounsfieldovi jednotky
Keywords in English
Computer Tomography, Magnetic Resonance, Micro-CT, Matlab, Image Processing, FEM, Hounsfield units
RIV year
2011
Released
15.06.2011
Publisher
Brno University of Technology
Location
Brno
ISBN
978-80-214-4302-0
Book
MENDEL 2011 - 17th International Conference on Soft Computing
Edition number
1
Pages from–to
255–267
Pages count
12
BIBTEX
@inproceedings{BUT72514,
author="Petr {Marcián} and Ondřej {Konečný} and Libor {Borák} and Jiří {Valášek} and Kamil {Řehák} and David {Krpalek} and Zdeněk {Florian},
title="On the Level of Computational Models in Biomechanics Depending on Gained Data from Ct/Mri and Micro-Ct",
booktitle="MENDEL 2011 - 17th International Conference on Soft Computing",
year="2011",
month="June",
pages="255--267",
publisher="Brno University of Technology",
address="Brno",
isbn="978-80-214-4302-0"
}