Identity information based on human magnetocardiography signals

Pengju Zhang; Chenxi Sun; Jianwei Zhang; Hong Guo

Identity information based on human magnetocardiography signals

Pengju Zhang, Chenxi Sun, Jianwei Zhang, Hong Guo

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

Abstract

We have developed an individual identification system based on magnetocardiography (MCG) signals captured using optically pumped magnetometers (OPMs). Our system utilizes pattern recognition to analyze the signals obtained at different positions on the body, by scanning the matrices composed of MCG signals with a 2*2 window. In order to make use of the spatial information of MCG signals, we transform the signals from adjacent small areas into four channels of a dataset. We further transform the data into time-frequency matrices using wavelet transforms and employ a convolutional neural network (CNN) for classification. As a result, our system achieves an accuracy rate of 97.04% in identifying individuals. This finding indicates that the MCG signal holds potential for use in individual identification systems, offering a valuable tool for personalized healthcare management.

Original language	English
Title of host publication	AAAI 2024 SSS on Clinical FMs
Publisher	AAAI Press
Publication status	Published - 29 Feb 2024
Event	AAAI 2024 Spring Symposium on Clinical Foundation Models - Stanford, California Duration: 25 Mar 2024 → 27 Mar 2024 https://clinicalfoundationmodels.github.io/

Publication series

Name
ISSN (Electronic)	2994-4317

Conference

Conference	AAAI 2024 Spring Symposium on Clinical Foundation Models
Abbreviated title	AAAI 2024 SSS on Clinical FMs
City	California
Period	25/03/24 → 27/03/24
Internet address	https://clinicalfoundationmodels.github.io/

Keywords

magnetocardiography
individual identification
optically pumped magnetometers

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@inproceedings{bcabff1cdf9540ee9818a2475084494d,

title = "Identity information based on human magnetocardiography signals",

abstract = "We have developed an individual identification system based on magnetocardiography (MCG) signals captured using optically pumped magnetometers (OPMs). Our system utilizes pattern recognition to analyze the signals obtained at different positions on the body, by scanning the matrices composed of MCG signals with a 2*2 window. In order to make use of the spatial information of MCG signals, we transform the signals from adjacent small areas into four channels of a dataset. We further transform the data into time-frequency matrices using wavelet transforms and employ a convolutional neural network (CNN) for classification. As a result, our system achieves an accuracy rate of 97.04\% in identifying individuals. This finding indicates that the MCG signal holds potential for use in individual identification systems, offering a valuable tool for personalized healthcare management.",

keywords = "magnetocardiography, individual identification, optically pumped magnetometers",

author = "Pengju Zhang and Chenxi Sun and Jianwei Zhang and Hong Guo",

year = "2024",

month = feb,

day = "29",

language = "English",

publisher = "AAAI Press",

booktitle = "AAAI 2024 SSS on Clinical FMs",

address = "United States",

note = "AAAI 2024 Spring Symposium on Clinical Foundation Models, AAAI 2024 SSS on Clinical FMs ; Conference date: 25-03-2024 Through 27-03-2024",

url = "https://clinicalfoundationmodels.github.io/",

}

TY - GEN

T1 - Identity information based on human magnetocardiography signals

AU - Zhang, Pengju

AU - Sun, Chenxi

AU - Zhang, Jianwei

AU - Guo, Hong

PY - 2024/2/29

Y1 - 2024/2/29

N2 - We have developed an individual identification system based on magnetocardiography (MCG) signals captured using optically pumped magnetometers (OPMs). Our system utilizes pattern recognition to analyze the signals obtained at different positions on the body, by scanning the matrices composed of MCG signals with a 2*2 window. In order to make use of the spatial information of MCG signals, we transform the signals from adjacent small areas into four channels of a dataset. We further transform the data into time-frequency matrices using wavelet transforms and employ a convolutional neural network (CNN) for classification. As a result, our system achieves an accuracy rate of 97.04% in identifying individuals. This finding indicates that the MCG signal holds potential for use in individual identification systems, offering a valuable tool for personalized healthcare management.

AB - We have developed an individual identification system based on magnetocardiography (MCG) signals captured using optically pumped magnetometers (OPMs). Our system utilizes pattern recognition to analyze the signals obtained at different positions on the body, by scanning the matrices composed of MCG signals with a 2*2 window. In order to make use of the spatial information of MCG signals, we transform the signals from adjacent small areas into four channels of a dataset. We further transform the data into time-frequency matrices using wavelet transforms and employ a convolutional neural network (CNN) for classification. As a result, our system achieves an accuracy rate of 97.04% in identifying individuals. This finding indicates that the MCG signal holds potential for use in individual identification systems, offering a valuable tool for personalized healthcare management.

KW - magnetocardiography

KW - individual identification

KW - optically pumped magnetometers

M3 - Conference Contribution (Conference Proceeding)

BT - AAAI 2024 SSS on Clinical FMs

PB - AAAI Press

T2 - AAAI 2024 Spring Symposium on Clinical Foundation Models

Y2 - 25 March 2024 through 27 March 2024

ER -

Identity information based on human magnetocardiography signals

Abstract

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Keywords

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