Title :
An Algorithm for the Automatic Analysis of Signals From an Oyster Heart Rate Sensor
Author :
Hellicar, Andrew D. ; Rahman, Ashfaqur ; Smith, Daniel V. ; Smith, Greg ; McCulloch, John ; Andrewartha, Sarah ; Morash, Andrea
Author_Institution :
Commonwealth Sci. & Ind. Res. Organ., Battery Point, TAS, Australia
Abstract :
An in situ optical oyster heart rate sensor generates signals requiring frequency estimation with properties different to human ECG and speech signals. We discuss the method of signal generation and highlight a number of these signal properties. An optimal heart rate estimation approach was identified by application of a variety of frequency estimation techniques and comparing results to manually acquired values. Although a machine learning approach achieved the best performance, accurately estimating 96.8% of the heart rates correctly, a median filtered autocorrelation approach achieved 93.7% with significantly less computational requirement. A method for estimating heart rate variation is also presented.
Keywords :
bioelectric potentials; electrocardiography; learning (artificial intelligence); median filters; medical signal processing; frequency estimation technique; heart rate estimation approach; heart rate variation; human ECG signal; machine learning approach; median filtered autocorrelation approach; optical oyster heart rate sensor; signal analysis; signal generation; signal properties; speech signal; Correlation; Estimation; Frequency estimation; Heart rate; Optical sensors; Biomedical signal processing; Frequency estimation; Machine learning; frequency estimation; machine learning;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2015.2422375
