Channel Characterization of Implantable Intrabody Communication through Experimental Measurements

Kayhan Ate, Anna Marcucci, Pietro Savazzi, Şükrü Özen, Fabio Dell’Acqua, Anna Vizziello

Type: Preprint

Publication Date: 2024-07-01

Citations: 0

DOI: https://doi.org/10.48550/arxiv.2407.01307

Abstract

Intrabody communication (IBC), is a promising technology that can be utilized for data transmission across the human body. In this study, a galvanic coupled (GC)-based IBC channel has been investigated for implantable configuration both theoretically and experimentally in the frequency range of 0 to 2.5 MHz. Theoretical studies were performed by using finite element method (FEM) based simulation software, called Comsol Multiphysics. A cylindrical human arm was modeled with realistic values. Experimental studies were carried out with chicken breast tissue as a substitute for human tissue. The pseudorandom noise (PN) sequences were transmitted to investigate the correlative channel sounder of tissue model. Results showed that the frequency affects signal propagation through the tissue model. Additionally, it is crucial to cancel common-mode noise in the IBC channel to enhance communication quality.

Locations

arXiv (Cornell University) - View - PDF

Similar Works

Action	Title	Year	Authors
+ PDF Chat	Channel Modeling for Physically Secure Electro-Quasistatic In-Body to Out-of-Body Communication with Galvanic Tx and Multimodal Rx	2021	Arunashish Datta Mayukh Nath Baibhab Chatterjee Nirmoy Modak Shreyas Sen
+ PDF Chat	Channel Characterization of Implantable Intrabody Communication through Experimental Measurements	2024	Kayhan Ateş Anna Marcucci Pietro Savazzi Şükrü Özen Fabio Dell’Acqua Anna Vizziello
+ PDF Chat	Multi-Path Model and Sensitivity Analysis for Galvanic Coupled Intra-Body Communication Through Layered Tissue	2015	Meenupriya Swaminathan Ferran Simon Cabrera Joan Sebastia Pujol Ufuk Muncuk Gunar Schirner Kaushik Chowdhury
+	BioPhysical Modeling, Characterization and Optimization of Electro-Quasistatic Human Body Communication	2018	Shovan Maity Mingxuan He Mayukh Nath Debayan Das Baibhab Chatterjee Shreyas Sen
+	In Vivo WBAN Communication: Design and Implementation	2018	Hadeel Elayan Raed M. Shubair Nawaf Almoosa
+	In Vivo WBAN Communication: Design and Implementation	2018	Hadeel Elayan Raed M. Shubair Nawaf Almoosa
+	Bio-Physical Modeling, Characterization, and Optimization of Electro-Quasistatic Human Body Communication	2018	Shovan Maity Mingxuan He Mayukh Nath Debayan Das Baibhab Chatterjee Shreyas Sen
+	A Quantitative Analysis of Physical Security and Path Loss With Frequency for IBOB Channel	2022	Arunashish Datta Mayukh Nath Baibhab Chatterjee Shovan Maity Shreyas Sen
+ PDF Chat	In vivo wireless channel modeling	2016	Ali Fatih Demir Z. Esat Ankaralı Yang Liu Qammer H. Abbasi Khalid Qaraqe Erchin Serpedin Hüseyin Arslan Richard D. Gitlin
+ PDF Chat	In Vivo Communications: Steps Toward the Next Generation of Implantable Devices	2016	Ali Fatih Demir Z. Esad Ankaralı Qammer H. Abbasi Yang Liu Khalid Qaraqe Erchin Serpedin Hüseyin Arslan Richard D. Gitlin
+ PDF Chat	Implant-to-Wearable Communication through the Human Body: Exploring the Effects of Encapsulated Capacitive and Galvanic Transmitters	2024	Anyu Jiang Cassandra Acebal Brook Heyd Trustin White Gurleen Kainth Arunashish Datta Shreyas Sen Adam Khalifa Baibhab Chatterjee
+	Design of Intra-body Nano-communication Network for Future Nano-medicine	2018	Mona Youssef Fatima Ghanim Noor Imad Ayesha Alqasim Raed M. Shubair
+	Characterization and Classification of Human Body Channel as a function of Excitation and Termination Modalities	2018	Shovan Maity Debayan Das Baibhab Chatterjee Shreyas Sen
+ PDF Chat	Characterization and Classification of Human Body Channel as a function of Excitation and Termination Modalities	2018	Shovan Maity Debayan Das Baibhab Chatterjee Shreyas Sen
+ PDF Chat	Anatomical Region-Specific In Vivo Wireless Communication Channel Characterization	2016	Ali Fatih Demir Qammer H. Abbasi Z. Esat Ankaralı Akram Alomainy Khalid Qaraqe Erchin Serpedin Hüseyin Arslan
+	Advanced Biophysical Model to Capture Channel Variability for EQS Capacitive HBC	2020	Arunashish Datta Mayukh Nath David Yang Shreyas Sen
+	Advanced Biophysical Model to Capture Channel Variability for EQS Capacitive HBC	2021	Arunashish Datta Mayukh Nath David Yang Shreyas Sen
+ PDF Chat	Advanced Biophysical Model to Capture Channel Variability for EQS Capacitive HBC	2020	Arunashish Datta Mayukh Nath David Yang Shreyas Sen
+ PDF Chat	Design and Implementation of a Hybrid Wireless Power and Communication System for Medical Implants	2023	Ali Khaleghi Aminolah Hasanvand Ilangko Balasingham
+ PDF Chat	Experimental Characterization of In Vivo Wireless Communication Channels	2015	Ali Fatih Demir Qammer H. Abbasi Z. Esat Ankaralı Marwa Qaraqe Erchin Serpedin Hüseyin Arslan

Works That Cite This (0)

Action	Title	Year	Authors

Works Cited by This (0)

Action	Title	Year	Authors