Improved detection and classification of arrhythmias in noise-corrupted electrocardiograms using contextual information - Concepedia

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Improved detection and classification of arrhythmias in noise-corrupted electrocardiograms using contextual information

122

Citations

2

References

2002

Year

Scott Greenwald, R.S. Patil, R.G. Mark

Unknown Venue

Hobbes-assisted SystemMedical MonitoringEngineeringNoisy ElectrocardiogramsNovel ApproachMedical InstrumentationHealth Monitoring (Biomedical Engineering)Biomedical Signal AnalysisStatistical Signal ProcessingElectrophysiological EvaluationData SciencePattern RecognitionElectrocardiographyBiosignal ProcessingNoisePatient MonitoringNetwork PhysiologyPublic HealthSignal DetectionCardiologyNoise-corrupted ElectrocardiogramsNoisy DataComputer ScienceBioinstrumentationSignal ProcessingContextual InformationBiomedical InstrumentationHealth MonitoringCardiac ElectrophysiologyElectrophysiologyHealth InformaticsArrhythmia

Abstract

A novel approach for employing contextual information to process noisy electrocardiograms (ECGs) is described. The method is embedded in HOBBES, an expert arrhythmia analysis system. HOBBES is a post-processor to ARISTOTLE, a classical arrhythmia detector. ARISTOTLE and HOBBES were evaluated using a database of 35 half-hour records containing a mixture of supraventricular and ventricular ectopic activity. The HOBBES-assisted system performed dramatically better than ARISTOTLE alone in processing noisy ECGs.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>

References

	Year	Citations

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