Detection of Heart Rate Variability From a Wearable Differential ECG Device
Published in Proceedings of the 39th Internation Convention on Information and Communication Technology, Electornics and Microelectornics (MIPRO 2016), 2016, DOI .
Abstract
The precise heart rate variability is extracted from an ECG signal measured by a wearable sensor that constantly records the heart activity of an active subject for several days. Due to the limited resources of the wear- able ECG device the signal can only be sampled at relatively low, approximately 120 Hz, frequency. Besides low sampling rate the signal from a wearable sensor is also burdened with much more noise than the standard 12-channel ambulatory ECG, mostly due to the design of the device, i.e. the electrodes are positioned relatively close to each other, and the fact that the subject is active during the measurements. To extract heart rate variability with 1 ms precision, i.e. 10 times more accurate than the sample rate of the measured signal, a two-step algorithm is proposed. In first step an approximate global search is performed, roughly determining the point of interest, followed by a local search based on the Moving Least Squares approximation to refine the result. The methodology is evaluated in terms of accuracy, noise sensitivity, and computational complexity. All tests are performed on simulated as well as measured data. It is demonstrated that the proposed algorithm provides accurate results at a low computational cost and it is robust enough for practical application.
J. Slak and G. Kosec, Detection of heart rate variability from a wearable differential ECG device, in: MIPRO 2016: 39th International Convention on Information and Communication Technology, Electronics and Microelectronics, May 30–June 3, 2016, Opatija, Croatia (ed. P. Biljanović), MIPRO proceedings, IEEE, Croatian Society for Information and Communication Technology, Electronics and Microelectronics, 2016, pp. 430–435, doi:10.1109/mipro.2016.7522182.