Title :
Automatic Concealed Heart Rate Detection from the BCG in Seated Position
Author :
Luna, Pablo Samuel ; Pallas, Ramon
Author_Institution :
Fac. de Instrumentacion Electron., Univ. Veracruzana, Xalapa, Mexico
Abstract :
Continuous monitoring of health state is important in elder and chronically ill (but otherwise not critical) patients. Ideally, the patient should not be aware of being continuously monitored. This study describes an automatic and non-conscious heart rate monitoring system based on the ballistocardiogram (BCG). The bi-axial BCG can be recorded by two piezoelectric force sensors and high-gain amplifiers. Digital signal pre-processing has been implemented to increase the SNR and an algorithm to automatically detect the heart rate has been evaluated. The high gain required makes the system susceptible to forces other than those related to the cardiovascular system, such as those due to body movements. The sensitivity and positive predictive values obtained are 97.8 % and 98.4 % but if the records where the BCG is masked are discarded, the respective values increase to 99.2 % and 99.5 %. These values are comparable to those typically obtained for the ECG.
Keywords :
biomechanics; blood vessels; cardiology; diseases; feature extraction; medical signal detection; medical signal processing; patient diagnosis; piezoelectric devices; signal classification; BCG-based heart rate monitoring system positive predictive values; BCG-based heart rate monitoring system sensitivity; automatic concealed heart rate detection; automatic heart rate detection algorithm; automatic heart rate monitoring system; ballistocardiogram-based heart rate monitoring sensitivity; ballistocardiogram-based heart rate monitoring system positive predictive values; biaxial BCG; biaxial ballistocardiogram; body movement-associated forces; cardiovascular system-related forces; chronically ill patient health state monitoring; continuous health state monitoring; continuous patient monitoring; digital signal preprocessing; elderly health state monitoring; force-susceptible system; heart rate evaluation; high gain requirement; high-gain amplifier-based BCG recording; nonconscious heart rate monitoring system; patient seated position; piezoelectric force sensor-based BCG recording; signal noise ratio; Biomedical monitoring; Electrocardiography; Heart rate detection; Instruments; Manganese; Monitoring; Signal to noise ratio; Heart rate detection; ballistocardiogram; non-conscious monitoring;
Journal_Title :
Latin America Transactions, IEEE (Revista IEEE America Latina)
DOI :
10.1109/TLA.2015.7069078
