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Subject Item
n2:RIV%2F68407700%3A21260%2F04%3A06102875%21RIV%2F2005%2FMSM%2F212605%2FN
rdf:type
skos:Concept n8:Vysledek
dcterms:description
Článek se zabývá tvorbou matematických modelů lidská lebky pro numerickou analýzu pomocí metody konečných prvků na základě dat získaných z počítačové tomografie With increasing power of computers and accordingly developing variational methods, especially Finite Element Method (FEM), computer simulation is nowadays one of the most popular methods in engineering practice. The major advantage of computer simulations compared to experiments is that they are cheaper and always non-destructive. For needs of biomechanics, we can consider analyzes of parts of skeleton or simulations of blood flow etc. For numerical analysis using FEM development of accurate geometry of organs of different tissues is necessary. An example of use in biomechanics is stress analysis of bones, in our case human skull. The problem is divided into two parts: image analysis and tissue segmentation followed by reconstruction of the model geometry. The latter can be achieved by two different approaches with the same goal (FE model): volume generation using NURBS (Non-Uniform Rational B-Splines) used for reconstruction of organs of relatively simple shape (e.g. femur) and direc With increasing power of computers and accordingly developing variational methods, especially Finite Element Method (FEM), computer simulation is nowadays one of the most popular methods in engineering practice. The major advantage of computer simulations compared to experiments is that they are cheaper and always non-destructive. For needs of biomechanics, we can consider analyzes of parts of skeleton or simulations of blood flow etc. For numerical analysis using FEM development of accurate geometry of organs of different tissues is necessary. An example of use in biomechanics is stress analysis of bones, in our case human skull. The problem is divided into two parts: image analysis and tissue segmentation followed by reconstruction of the model geometry. The latter can be achieved by two different approaches with the same goal (FE model): volume generation using NURBS (Non-Uniform Rational B-Splines) used for reconstruction of organs of relatively simple shape (e.g. femur) and direc
dcterms:title
Konečneprvkový model lidské lebky vytvořený na základě dat z CT anotace Finite Element Model of Human Skullconstructed from Data Obtained from Computed Thomography Finite Element Model of Human Skullconstructed from Data Obtained from Computed Thomography
skos:prefLabel
Finite Element Model of Human Skullconstructed from Data Obtained from Computed Thomography Finite Element Model of Human Skullconstructed from Data Obtained from Computed Thomography Konečneprvkový model lidské lebky vytvořený na základě dat z CT anotace
skos:notation
RIV/68407700:21260/04:06102875!RIV/2005/MSM/212605/N
n4:strany
105 ; 106
n4:aktivita
n20:Z
n4:aktivity
Z(AV0Z2071913), Z(MSM 212600025)
n4:dodaniDat
n18:2005
n4:domaciTvurceVysledku
n13:6286895
n4:druhVysledku
n9:D
n4:duvernostUdaju
n17:S
n4:entitaPredkladatele
n16:predkladatel
n4:idSjednocenehoVysledku
564464
n4:idVysledku
RIV/68407700:21260/04:06102875
n4:jazykVysledku
n12:eng
n4:klicovaSlova
FE model; Mesh generation; Skull
n4:klicoveSlovo
n6:Skull n6:FE%20model n6:Mesh%20generation
n4:kontrolniKodProRIV
[D81C97191DE9]
n4:mistoKonaniAkce
Szklarska Poreba
n4:mistoVydani
Wroclaw
n4:nazevZdroje
1st Students' Scientific Conference of Biomechanics
n4:obor
n11:FI
n4:pocetDomacichTvurcuVysledku
1
n4:pocetTvurcuVysledku
2
n4:rokUplatneniVysledku
n18:2004
n4:tvurceVysledku
Jiroušek, Ondřej Kunecký, Jiří
n4:typAkce
n10:WRD
n4:zahajeniAkce
2004-05-27+02:00
n4:zamer
n5:MSM%20212600025 n5:AV0Z2071913
s:issn
1732-0240
s:numberOfPages
2
n19:hasPublisher
Oficyna Wydawnicza Politechniki Wrocławskiej
n14:organizacniJednotka
21260