Intrabody communication (IBC) technology is becoming progressively more standard-ized due to its low power consumption and high security features incorporated into the third phys-ical layer of the IEEE 802.15.6 standard. Even then, there are still many challenges in normalizing the measurement issues of IBC. A major concern that should not be overlooked is the electrodes in the IBC, especially the popular use of gel electrodes. In the channel measurements, gel electrodes are commonly employed to improve the signal-to-noise ratio and prevent electrodes from falling off. In this paper, a comparative study of the electrical properties of gel was investigated during the measurement of human channel characteristics and to clarify the differences of them. Firstly, the basis of electrostatic field pole plate measurements and electromagnetic theory were introduced to interpretate how the relative permittivity and conductivity of different gels will influence the meas-urement results. Then the in vivo experiments with different gel or dry electrodes were performed to compare the differences induced by the gel. The results indicate that the influence of the gel on the human channel measurement is mainly concentrated below 400 kHz (the attenuation is re-duced by 16.7 dB on average), and the stability of the permittivity and conductivity of the gel has a direct impact on the stability of its measurement of the human channel. This result may provide a meaningful reference for the standardization of electrode usage in IBC.

Fengjie Lin;Ziliang Wei;Jiejie Yang;Yangrong Wen;Yueming Gao;Sio Hang Pun;Mang I Vai;Min Du

College of Physics and Information Engineering, Key Laboratory of Medical Instru-mentation & Pharmaceutical Technology of Fujian Province, Fuzhou University, Fuzhou 350108, China;State Key Labor-atory of Analog and Mixed-Signal VLSI, University of Ma-cau, Taipa, MO 999078, China

北京理工大学学报（英文版）

[1]Fengjie Lin;Ziliang Wei;Jiejie Yang;Yangrong Wen;Yueming Gao;Sio Hang Pun;Mang I Vai;Min Du-.A Comparative Study of the Electrodes Gels' Electrical Properties in the Measurement Issues of Intrabody Communication)[J].北京理工大学学报（英文版）,2022(01):71-80

Intrabody,interpretate

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