Juris Ormanis, Anastasija Sevcenko, Vladislavs Medvedevs, Krisjanis Nesenbergs, Armands Ancans, Modris Greitans. Electrodes for bio-electrical impedance and body-coupled communication. MeMeA 2024, The 19th edition of the IEEE International Symposium on Medical Measurements and Applications, IEEE, 2024.

Bibtex citāts:
@inproceedings{16511_2024,
author = {Juris Ormanis and Anastasija Sevcenko and Vladislavs Medvedevs and Krisjanis Nesenbergs and Armands Ancans and Modris Greitans},
title = {Electrodes for bio-electrical impedance and body-coupled communication},
journal = {MeMeA 2024, The 19th edition of the IEEE International Symposium on Medical Measurements and Applications},
publisher = {IEEE},
year = {2024}
}

Anotācija: In the pursuit of enhancing healthcare through biomedical engineering and wearable technology, this research conducts a thorough investigation into the efficacy of different electrodes for BioZ and BCC applications. We meticulously analyze Ag/AgCl, EMS, and gold-plated electrodes across a variety of metrics such as SNR, Settling Time, and CER. Through a series of experiments tailored to assess their performance in monitoring heart rate, breathing, and facilitating data transmission through the human body, we uncover the specific contexts in which each electrode type excels. This study highlights the critical role of electrode choice in advancing non-invasive diagnostic methods through wearable technology. It provides a comprehensive comparison of various electrode types, highlighting their respective benefits for specific health monitoring applications. This research aims to guide the future development of wearable devices, aiming for an optimal balance between sustainability, accuracy, and user convenience in electrode selection for BioZ measurement and BCC applications. This study highlights the critical role of electrode choice in advancing non-invasive diagnostic methods through wearable technology. It provides a comprehensive comparison of various electrode types, highlighting their respective benefits for specific health monitoring applications. This research aims to guide the future development of wearable devices, aiming for an optimal balance between sustainability, accuracy, and user convenience in electrode selection for \gls{BioZ} measurement and \gls{BCC} applications.

Pilnais teksts: towards_better_electrodes

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