Extraction and recognition of attractors in three-dimensional Lorenz plot.
10.7507/1001-5515.201607048
- Author:
Min HU
1
;
Chengfan JANG
2
;
Suxia WANG
2
Author Information
1. Department of Echocardiogram and Electrocardiogram, the People's Hospital of Huangshan, Huangshan, Anhui 245000, P.R.China.humin_jx@163.com.
2. Department of Echocardiogram and Electrocardiogram, the People's Hospital of Huangshan, Huangshan, Anhui 245000, P.R.China.
- Publication Type:Journal Article
- Keywords:
Lorenz plot;
ambulatory electrocardiogram;
arrhythmias;
attractor;
automatic recognition;
heart rate variability;
three dimensional
- From:
Journal of Biomedical Engineering
2018;35(1):25-30
- CountryChina
- Language:Chinese
-
Abstract:
Lorenz plot (LP) method which gives a global view of long-time electrocardiogram signals, is an efficient simple visualization tool to analyze cardiac arrhythmias, and the morphologies and positions of the extracted attractors may reveal the underlying mechanisms of the onset and termination of arrhythmias. But automatic diagnosis is still impossible because it is lack of the method of extracting attractors by now. We presented here a methodology of attractor extraction and recognition based upon homogeneously statistical properties of the location parameters of scatter points in three dimensional LP (3DLP), which was constructed by three successive RR intervals as , and axis in Cartesian coordinate system. Validation experiments were tested in a group of RR-interval time series and tags data with frequent unifocal premature complexes exported from a 24-hour Holter system. The results showed that this method had excellent effective not only on extraction of attractors, but also on automatic recognition of attractors by the location parameters such as the azimuth of the points peak frequency ( ) of eccentric attractors once stereographic projection of 3DLP along the space diagonal. Besides, was still a powerful index of differential diagnosis of atrial and ventricular extrasystole. Additional experiments proved that this method was also available on several other arrhythmias. Moreover, there were extremely relevant relationships between 3DLP and two dimensional LPs which indicate any conventional achievement of LPs could be implanted into 3DLP. It would have a broad application prospect to integrate this method into conventional long-time electrocardiogram monitoring and analysis system.
