The Transactions of The Korean Institute of Electrical Engineers (전기학회논문지)

The Korean Institute of Electrical Engineers (대한전기학회)
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Implementation of Wearable Heart Activity Monitoring System having Modified Bipolar Electrode and Correlation Analysis with Clinical Electrocardiograph(ECG)

수정된 바이폴라 전극을 갖는 착용형 심장활동 모니터링 시스템 구현 및 임상 심전도와의 상관관계 분석

  • Published : 2008.06.01
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Abstract

Wearable physiological signal monitoring systems are regarded as an important sensing unit platforms in ubiquitous/mobile healthcare application. In this paper, we suggested the modified bipolar electrodes implemented on the portable heart activity monitoring system, which minimized the distance of electrodes formed on a attachable pad. The proposed electrode configuration is useful in mobile measurement environments, but has a disadvantage of reduced amplitude of the heart action potential. In order to overcome the shortcoming of the suggested electrode configuration, we implemented the amplifying circuit to increase the signal-gain and decrease the artifacts. For evaluations, we analyzed the specificity of measured cardiography using the proposed electrodes through the comparing of heart activity monitoring system with standard clinical ECG(lead2) by pearson correlation coefficients. The result showed that the average correlation coefficient is $0.903{\pm}0.036,\;0.873{\pm}0.072$ at V3, V4 chest lead position, respectively. Thus, the modified bipolar electrode is quite suitable to monitor the electrical activity of the heart in the situation of the mobile environment, and could be considered having high similarity with standard clinical ECG.

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References

  1. 지경용 외 14인, "유비쿼터스 시대의 보건의료", u-Health 서비스와 솔루션, 35p-84p, 2005
  2. John G. Webster, "Medical Instrumentation: Application and Design," Wiley, 1998
  3. James C. Huhta and John G. Webster, "60-Hz Interference in Electrocardiography", IEEE, Trans. Biomed. Eng 20, Vol 2, pp.91-101,1973
  4. P.Zipp and H.Ahrens, "A Model of Bioelectrode Motion Artefact and Reduction of Artefact By Amplifier Input Stage Design", J.Biomed Eng, Vol1, pp.273-276, 1979 https://doi.org/10.1016/0141-5425(79)90165-1
  5. George E.Bergey, Russell D.Squires and William C.Sipple, "Electrocardiogram Recording with Pasteless Electrodes", IEEE, Trans,Biomed.Eng, Vol1 BME-18, No.3, pp.206-211, 1971
  6. 김경호 외 2인, "의용기기개론", 문운당, 85p-90p, 2007
  7. Russel K.Hobbie, "생명과학을 위한 의학물리", 청문각, 3rd, 213p-241p
  8. Brusce B.Winter and John G Webster, "Dreven-Right Leg Circuit Design", IEEE, Trans.Biomed.Eng, Vol1, pp.62-66, 1983
  9. Enrique Mario Spinelli and Ramon Palls-Areny, " AC-Coupled Front-End for Biopotential Measurements", IEEE, Trans. Biomed. Eng, Vol50, No3, pp.391-395, 2003 https://doi.org/10.1109/TBME.2003.808826
  10. M.P.Wattts and D.B.Shoat, "Trends in electrocardiograph design", Journal of the Institution of electronic and Radio Eng, Vol57, No.4, pp.140-150, 1987 https://doi.org/10.1049/jiere.1987.0055
  11. Willis j. Tompkins, "Biomedical Digital Signal Processing", Prentice-Hall International, 1993