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Channel modeling and characterization of EQS capacitive coupling human body communication

Channel modeling and characterization of EQS capacitive coupling human body communication
Channel modeling and characterization of EQS capacitive coupling human body communication

Human body communication (HBC) has emerged as a key alternative to radio frequency (RF) communication, with path loss (PL) evaluation being crucial for HBC system development. Despite the existence of various PL measuring techniques in the quasi-static electric (EQS) band, the obtained results exhibit significant variance that tends to make overly optimistic PL estimates for HBCs. Additionally, these methods have displayed inconsistencies in comparison to simulation results, primarily because of the lack of an accurate simulation model, which fails to provide a complete characterization of capacitive coupling HBC (CC-HBC) operation. To address these issues, this study proposes a simple, battery-powered transceiver to accurately measure PL. Furthermore, a comprehensive lumped circuit model is introduced to verify measurements and support the characterization and development of CC-HBC systems. The study also investigates the effects of load impedance, intercoupling capacitance, and leakage impedance on overall PL through ADS simulation. Lastly, a PL model is developed that considers crucial parameters, including distance, frequency, ground plane size, receiver capacitance, and resistance, providing valuable design guidance for efficient EQS-HBC systems.

1548-3746
938-942
IEEE
Huang, Qi
2e55afa8-93da-4360-89e1-062e9e644314
Ali, Abdelhay
b485c89d-3dfe-4725-9285-fd56f6900470
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Eltawil, Ahmed
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72
Huang, Qi
2e55afa8-93da-4360-89e1-062e9e644314
Ali, Abdelhay
b485c89d-3dfe-4725-9285-fd56f6900470
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Eltawil, Ahmed
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72

Huang, Qi, Ali, Abdelhay, Celik, Abdulkadir and Eltawil, Ahmed (2023) Channel modeling and characterization of EQS capacitive coupling human body communication. In 2023 IEEE 66th International Midwest Symposium on Circuits and Systems, MWSCAS 2023. IEEE. pp. 938-942 . (doi:10.1109/MWSCAS57524.2023.10405959).

Record type: Conference or Workshop Item (Paper)

Abstract

Human body communication (HBC) has emerged as a key alternative to radio frequency (RF) communication, with path loss (PL) evaluation being crucial for HBC system development. Despite the existence of various PL measuring techniques in the quasi-static electric (EQS) band, the obtained results exhibit significant variance that tends to make overly optimistic PL estimates for HBCs. Additionally, these methods have displayed inconsistencies in comparison to simulation results, primarily because of the lack of an accurate simulation model, which fails to provide a complete characterization of capacitive coupling HBC (CC-HBC) operation. To address these issues, this study proposes a simple, battery-powered transceiver to accurately measure PL. Furthermore, a comprehensive lumped circuit model is introduced to verify measurements and support the characterization and development of CC-HBC systems. The study also investigates the effects of load impedance, intercoupling capacitance, and leakage impedance on overall PL through ADS simulation. Lastly, a PL model is developed that considers crucial parameters, including distance, frequency, ground plane size, receiver capacitance, and resistance, providing valuable design guidance for efficient EQS-HBC systems.

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More information

Published date: 2023
Additional Information: Publisher Copyright: © 2023 IEEE.
Venue - Dates: 2023 IEEE 66th International Midwest Symposium on Circuits and Systems, MWSCAS 2023, , Tempe, United States, 2023-08-06 - 2023-08-09
Learn more about Next Generation Wireless research

Identifiers

Local EPrints ID: 504493
URI: http://eprints.soton.ac.uk/id/eprint/504493
DOI: doi:10.1109/MWSCAS57524.2023.10405959
ISSN: 1548-3746
PURE UUID: 442a7471-d731-4e04-b38f-d8a2ed9c32b8
ORCID for Abdulkadir Celik: ORCID iD orcid.org/0000-0001-9007-9979

Catalogue record

Date deposited: 10 Sep 2025 15:39
Last modified: 11 Sep 2025 03:49

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Contributors

Author: Qi Huang
Author: Abdelhay Ali
Author: Abdulkadir Celik ORCID iD
Author: Ahmed Eltawil

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