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COMSOL Inc 2d human head finite element model (fem)
CT image and <t>2D</t> finite element model of human head used for simulation experiments. (a) A head CT image of a healthy volunteer was used to construct a finite element model. (b) A finite element model <t>(FEM)</t> with an ideally symmetrical structure was constructed according to the right boundary of each layer of head tissues in the head CT image. The 2D head model consisted of 17659 triangular elements, 9200 nodes, and 16 electrodes (A: anterior; P: posterior; L: left; and R: right).
2d Human Head Finite Element Model (Fem), supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/2d+human+head+finite+element+model+%28fem%29/pmc04060593-128-8-22?v=COMSOL+Inc
Average 90 stars, based on 1 article reviews
2d human head finite element model (fem) - by Bioz Stars, 2026-07
90/100 stars

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1) Product Images from "Exploratory Study on the Methodology of Fast Imaging of Unilateral Stroke Lesions by Electrical Impedance Asymmetry in Human Heads"

Article Title: Exploratory Study on the Methodology of Fast Imaging of Unilateral Stroke Lesions by Electrical Impedance Asymmetry in Human Heads

Journal: The Scientific World Journal

doi: 10.1155/2014/534012

CT image and 2D finite element model of human head used for simulation experiments. (a) A head CT image of a healthy volunteer was used to construct a finite element model. (b) A finite element model (FEM) with an ideally symmetrical structure was constructed according to the right boundary of each layer of head tissues in the head CT image. The 2D head model consisted of 17659 triangular elements, 9200 nodes, and 16 electrodes (A: anterior; P: posterior; L: left; and R: right).
Figure Legend Snippet: CT image and 2D finite element model of human head used for simulation experiments. (a) A head CT image of a healthy volunteer was used to construct a finite element model. (b) A finite element model (FEM) with an ideally symmetrical structure was constructed according to the right boundary of each layer of head tissues in the head CT image. The 2D head model consisted of 17659 triangular elements, 9200 nodes, and 16 electrodes (A: anterior; P: posterior; L: left; and R: right).

Techniques Used: Construct

Index of asymmetry (IA) of the 2D FEM of human head.
Figure Legend Snippet: Index of asymmetry (IA) of the 2D FEM of human head.

Techniques Used:



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COMSOL Inc 2d human head finite element model (fem)
CT image and <t>2D</t> finite element model of human head used for simulation experiments. (a) A head CT image of a healthy volunteer was used to construct a finite element model. (b) A finite element model <t>(FEM)</t> with an ideally symmetrical structure was constructed according to the right boundary of each layer of head tissues in the head CT image. The 2D head model consisted of 17659 triangular elements, 9200 nodes, and 16 electrodes (A: anterior; P: posterior; L: left; and R: right).
2d Human Head Finite Element Model (Fem), supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/2d+human+head+finite+element+model+%28fem%29/pmc04060593-128-8-22?v=COMSOL+Inc
Average 90 stars, based on 1 article reviews
2d human head finite element model (fem) - by Bioz Stars, 2026-07
90/100 stars
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CT image and 2D finite element model of human head used for simulation experiments. (a) A head CT image of a healthy volunteer was used to construct a finite element model. (b) A finite element model (FEM) with an ideally symmetrical structure was constructed according to the right boundary of each layer of head tissues in the head CT image. The 2D head model consisted of 17659 triangular elements, 9200 nodes, and 16 electrodes (A: anterior; P: posterior; L: left; and R: right).

Journal: The Scientific World Journal

Article Title: Exploratory Study on the Methodology of Fast Imaging of Unilateral Stroke Lesions by Electrical Impedance Asymmetry in Human Heads

doi: 10.1155/2014/534012

Figure Lengend Snippet: CT image and 2D finite element model of human head used for simulation experiments. (a) A head CT image of a healthy volunteer was used to construct a finite element model. (b) A finite element model (FEM) with an ideally symmetrical structure was constructed according to the right boundary of each layer of head tissues in the head CT image. The 2D head model consisted of 17659 triangular elements, 9200 nodes, and 16 electrodes (A: anterior; P: posterior; L: left; and R: right).

Article Snippet: According to finite element modeling [ ], a 2D human head finite element model (FEM) with ideally bilateral symmetry was established with COMSOL Multiphysics 3.5a (COMSOL, Inc., Stockholm, Sweden) ( ).

Techniques: Construct

Index of asymmetry (IA) of the 2D FEM of human head.

Journal: The Scientific World Journal

Article Title: Exploratory Study on the Methodology of Fast Imaging of Unilateral Stroke Lesions by Electrical Impedance Asymmetry in Human Heads

doi: 10.1155/2014/534012

Figure Lengend Snippet: Index of asymmetry (IA) of the 2D FEM of human head.

Article Snippet: According to finite element modeling [ ], a 2D human head finite element model (FEM) with ideally bilateral symmetry was established with COMSOL Multiphysics 3.5a (COMSOL, Inc., Stockholm, Sweden) ( ).

Techniques: