System Codesign for the Measurement of Biological Tissues using Surface Potential Data Analysis

In this work we present the development of a monitoring system that is targeted to track the data of electrical potential measurements in biological tissues. The system is conceived to be portable and its design allows for low-energy consumption. To account for different types of biological material...

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Published in:Journal of physics. Conference series 2022-12, Vol.2408 (1), p.12027
Main Authors: Hyka, O, Vejar, A, Rymarczyk, T
Format: Article
Language:English
Subjects:
Biological materials
Co-design
Data acquisition
Data analysis
Energy consumption
Field programmable gate arrays
Microcontrollers
Physics
Reconfigurable hardware
Signal processing
Tissues
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Rymarczyk, T
description In this work we present the development of a monitoring system that is targeted to track the data of electrical potential measurements in biological tissues. The system is conceived to be portable and its design allows for low-energy consumption. To account for different types of biological materials, the measurement of the bioimpedance of the material is generally used. To achieve both speed and accuracy, we deploy a system using hardware-software codesign with reconfigurable hardware. This integral approach is facilitated by the use of a modern system of chip with mixed signal capabilities. In particular we use a field programmable gate array for accelerating signal processing and data acquisition. A double core microcontroller is used to collect, process and deliver the data over a networked environment.
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subjects Biological materials
Co-design
Data acquisition
Data analysis
Energy consumption
Field programmable gate arrays
Microcontrollers
Physics
Reconfigurable hardware
Signal processing
Tissues
title System Codesign for the Measurement of Biological Tissues using Surface Potential Data Analysis
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