Paper-Recorded ECG Digitization Method with Automatic Reference Voltage Selection for Telemonitoring and Diagnosis

Paper-Recorded ECG Digitization Method with Automatic Reference Voltage Selection for Telemonitoring and Diagnosis

In electrocardiograms (ECGs), multiple forms of encryption and preservation formats create difficulties for data sharing and retrospective disease analysis. Additionally, photography and storage using mobile devices are convenient, but the images acquired contain different noise interferences. To ad...

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Main Authors: Wang, Liang Hung, Xie, Chao Xin, Yang, Tao, Tan, Hong Xin, Fan, Ming Hui, Kuo, I. Chun, Lee, Zne Jung, Chen, Tsung Yi, Huang, Pao Cheng, Chen, Shih Lun, Abu, Patricia Angela R
格式: text
出版: Archīum Ateneo 2024
主題:
ECG data recovery
ECG signal extraction
image distortion correction
signal reconstruction
uneven light correction
Biomedical
Biomedical Engineering and Bioengineering
Computer Engineering
Computer Sciences
Electrical and Computer Engineering
Engineering
Medicine and Health Sciences
Physical Sciences and Mathematics
在線閱讀:https://archium.ateneo.edu/discs-faculty-pubs/422
https://archium.ateneo.edu/context/discs-faculty-pubs/article/1424/viewcontent/diagnostics_14_01910.pdf
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機構: Ateneo De Manila University
實物特徵
總結:In electrocardiograms (ECGs), multiple forms of encryption and preservation formats create difficulties for data sharing and retrospective disease analysis. Additionally, photography and storage using mobile devices are convenient, but the images acquired contain different noise interferences. To address this problem, a suite of novel methodologies was proposed for converting paper-recorded ECGs into digital data. Firstly, this study ingeniously removed gridlines by utilizing the Hue Saturation Value (HSV) spatial properties of ECGs. Moreover, this study introduced an innovative adaptive local thresholding method with high robustness for foreground–background separation. Subsequently, an algorithm for the automatic recognition of calibration square waves was proposed to ensure consistency in amplitude, rather than solely in shape, for digital signals. The original signal reconstruction algorithm was validated with the MIT–BIH and PTB databases by comparing the difference between the reconstructed and the original signals. Moreover, the mean of the Pearson correlation coefficient was 0.97 and 0.98, respectively, while the mean absolute errors were 0.324 and 0.241, respectively. The method proposed in this study converts paper-recorded ECGs into a digital format, enabling direct analysis using software. Automated techniques for acquiring and restoring ECG reference voltages enhance the reconstruction accuracy. This innovative approach facilitates data storage, medical communication, and remote ECG analysis, and minimizes errors in remote diagnosis.

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