Data based on capacitive and pressure measurement on physical vascular model developed at out university. We used capacitve sensing for dielectric volume change of artificial arterial segment on two measurement sites. For verification we used pressure sensors commonly used in medical applications to measure blood pressure or fluid pressure within the human body. Overall, your approach combining capacitive sensing and pressure measurements provides a comprehensive analysis of the dielectric volume changes in the artificial arterial segment.

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[1] Daniel Barvik, "PWV capacity pressure", IEEE Dataport, 2023. [Online]. Available: http://dx.doi.org/10.21227/8d1r-b939. Accessed: Jul. 14, 2024.
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doi = {10.21227/8d1r-b939},
url = {http://dx.doi.org/10.21227/8d1r-b939},
author = {Daniel Barvik },
publisher = {IEEE Dataport},
title = {PWV capacity pressure},
year = {2023} }
TY - DATA
T1 - PWV capacity pressure
AU - Daniel Barvik
PY - 2023
PB - IEEE Dataport
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Daniel Barvik. (2023). PWV capacity pressure. IEEE Dataport. http://dx.doi.org/10.21227/8d1r-b939
Daniel Barvik, 2023. PWV capacity pressure. Available at: http://dx.doi.org/10.21227/8d1r-b939.
Daniel Barvik. (2023). "PWV capacity pressure." Web.
1. Daniel Barvik. PWV capacity pressure [Internet]. IEEE Dataport; 2023. Available from : http://dx.doi.org/10.21227/8d1r-b939
Daniel Barvik. "PWV capacity pressure." doi: 10.21227/8d1r-b939