Intelligent cardiac telemonitoring system

Our project tried to improve the repeatability and quality of vital parameter measurements performed at home. Our efforts focused on four issues, (a) a new electrode reversal detection algorithm that can correctly decide whether electrodes were reversed in 94.87% of the cases and can determine the p...

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Hauptverfasser: Balazs, G., Kozmann, G., Vassanyi, I.
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Kozmann, G.
Vassanyi, I.
description Our project tried to improve the repeatability and quality of vital parameter measurements performed at home. Our efforts focused on four issues, (a) a new electrode reversal detection algorithm that can correctly decide whether electrodes were reversed in 94.87% of the cases and can determine the proper reversal order in 85.32% of the cases, (b) the influence of electrode misplacements (1 cm) was studied by comparing QRS, PQ, QT, R, T and ST60 parameters. We found significant differences between the correctly positioned and misplaced parameters which underlines the importance of correct placement, (c) a modified Minnesota coding system was developed which was 9.3% more efficient when coding the 3-1, 3-2, 6-4-1, 7-1-1, 7-2-1, 7-3, 7-4 rules and (d) a lead estimation process is developed which estimates the unmeasured precordial leads form the measured I, II, V2 leads with 98.09% correlation in average.
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subjects Cardiology
Electrocardiography
Electrodes
Information technology
Intelligent systems
Monitoring
Performance evaluation
Q measurement
Signal generators
Testing
title Intelligent cardiac telemonitoring system
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