Spatial sensitivity distribution assessment and Monte Carlo simulations for needle-based bioimpedance imaging during venipuncture using the finite element method
%0 Journal Article
%1 WOS:001216823700001
%A Atmaca, Ömer
%A Liu, Jan
%A Ly, Toni J.
%A Bajraktari, Flake
%A Pott, Peter P.
%D 2024
%I Wiley-VCH
%J International journal for numerical methods in biomedical engineering
%K ubs_30186 unibibliografie ubs_20011 ubs_10007 ubs_30114 ubs_40347 wos mult ubs_40175
%N 7
%P e3831
%R 10.1002/cnm.3831
%T Spatial sensitivity distribution assessment and Monte Carlo simulations for needle-based bioimpedance imaging during venipuncture using the finite element method
%V 40
@article{WOS:001216823700001,
added-at = {2024-12-09T17:19:07.000+0100},
affiliation = {Atmaca, O (Corresponding Author), Univ Stuttgart, Inst Appl Opt ITO, Stuttgart, Baden Wurttembe, Germany.
Atmaca, Oemer; Liu, Jan; Ly, Toni J.; Bajraktari, Flake; Pott, Peter P., Univ Stuttgart, Inst Med Device Technol IMT, Baden Wurttemberg, Germany.
Atmaca, Oemer, Univ Stuttgart, Inst Appl Opt ITO, Stuttgart, Baden Wurttembe, Germany.
Ly, Toni J., Fraunhofer Inst Mfg Engn & Automat IPA, Stuttgart, Baden Wurttembe, Germany.},
author = {Atmaca, Ömer and Liu, Jan and Ly, Toni J. and Bajraktari, Flake and Pott, Peter P.},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2c47a80482bb94da5585be0782c03f675/unibiblio},
doi = {10.1002/cnm.3831},
interhash = {a68ff4708e1c76a0bbbca2437ab9d86a},
intrahash = {c47a80482bb94da5585be0782c03f675},
issn = {{2040-7939} and {2040-7947}},
journal = {International journal for numerical methods in biomedical engineering},
keywords = {ubs_30186 unibibliografie ubs_20011 ubs_10007 ubs_30114 ubs_40347 wos mult ubs_40175},
language = {eng},
number = 7,
orcid-numbers = {Atmaca, Omer/0009-0006-3760-9866},
pages = {e3831},
publisher = {Wiley-VCH},
research-areas = {Engineering; Mathematical & Computational Biology; Mathematics},
timestamp = {2024-12-10T14:54:46.000+0100},
title = {Spatial sensitivity distribution assessment and Monte Carlo simulations for needle-based bioimpedance imaging during venipuncture using the finite element method},
unique-id = {WOS:001216823700001},
volume = 40,
year = 2024
}
