$ECG compression technique using fast fractals in the Internet of medical things$

ECG compression technique using fast fractals in the Internet of medical things

ECG signal is widely used in most cardiology e‐health systems. Patients may be monitored continuously for at least 12 h a day. Therefore, the ECG signal size transmitted to a hospital server during continuous monitoring is significant. Furthermore, transmission of the large size ECG signal is a powe...

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Veröffentlicht in:	Concurrency and computation 2023-10, Vol.35 (23)
Hauptverfasser:	Ibaida, Ayman, Abuadbba, Sharif, Al‐Shammary, Dhiah, Khalil, Ibrahim
Format:	Artikel
Sprache:	eng
Schlagworte:	Cardiology Compression ratio Fractal models Fractals Internet of medical things Power consumption
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creator	Ibaida, Ayman Abuadbba, Sharif Al‐Shammary, Dhiah Khalil, Ibrahim
description	ECG signal is widely used in most cardiology e‐health systems. Patients may be monitored continuously for at least 12 h a day. Therefore, the ECG signal size transmitted to a hospital server during continuous monitoring is significant. Furthermore, transmission of the large size ECG signal is a power consuming process. ECG compression is one of the proposed solutions to overcome this problem. In this paper, a new fractal‐based ECG lossy compression technique is proposed. It is clear that fractal can use ECG signal self similarity characteristics efficiently to achieve high compression ratios. The proposed technique is based on developing the fractal model in conjunction with Iterated Function System. Fractal is well known as a time consuming technique, and therefore, new mathematical development is proposed to potentially reduce fractal computations. Experiments have proven the significant performance of fast fractal in comparison with the traditional version. Furthermore, the resultant compression ratios are close to the traditional fractal results and higher than other existing techniques.
doi_str_mv	10.1002/cpe.7812
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subjects	Cardiology Compression ratio Fractal models Fractals Internet of medical things Power consumption
title	ECG compression technique using fast fractals in the Internet of medical things
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