Title :
Noise-tolerant instantaneous heart rate and R-peak detection using short-term autocorrelation for wearable healthcare systems
Author :
Fujii, Teruya ; Nakano, M. ; Yamashita, Katsumi ; Konishi, Tsuyoshi ; Izumi, Shintaro ; Kawaguchi, Hitoshi ; Yoshimoto, Masahiko
Author_Institution :
Kobe Univ., Nada, Japan
Abstract :
This paper describes a robust method of Instantaneous Heart Rate (IHR) and R-peak detection from noisy electrocardiogram (ECG) signals. Generally, the IHR is calculated from the R-wave interval. Then, the R-waves are extracted from the ECG using a threshold. However, in wearable bio-signal monitoring systems, noise increases the incidence of misdetection and false detection of R-peaks. To prevent incorrect detection, we introduce a short-term autocorrelation (STAC) technique and a small-window autocorrelation (SWAC) technique, which leverages the similarity of QRS complex waveforms. Simulation results show that the proposed method improves the noise tolerance of R-peak detection.
Keywords :
electrocardiography; health care; medical signal detection; medical signal processing; patient monitoring; signal denoising; ECG; IHR; QRS complex waveforms; R-peak false detection; R-wave interval; STAC technique; SWAC technique; noise-tolerant instantaneous heart rate; noisy electrocardiogram signals; robust method; short-term autocorrelation technique; small-window autocorrelation technique; wearable biosignal monitoring systems; wearable healthcare system; Biomedical monitoring; Correlation; Databases; Electrocardiography; Monitoring; Signal to noise ratio;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE
Conference_Location :
Osaka
DOI :
10.1109/EMBC.2013.6611251
