Two-Dimensional Warping for One-Dimensional Signals—Conceptual Framework and Application to ECG Processing

Author

Schmidt, Martin ; Baumert, Mathias ; Porta, Alberto ; Malberg, Hagen ; Zaunseder, S.

Author_Institution

Inst. of Biomed. Eng., Tech. Univ. Dresden, Dresden, Germany

Volume

62

Issue

21

fYear

2014

fDate

Nov.1, 2014

Firstpage

5577

Lastpage

5588

Abstract

We propose a novel method for evaluating the similarity between two 1d patterns. Our method, referred to as two-dimensional signal warping (2DSW), extends the basic ideas of known warping techniques such as dynamic time warping and correlation optimized warping. By employing two-dimensional piecewise stretching 2DSW is able to take into account inhomogeneous variations of shapes. We apply 2DSW to ECG recordings to extract beat-to-beat variability in QT intervals (QTV) that is indicative of ventricular repolarization lability and typically characterised by a low signal-to-noise ratio. Simulation studies show high robustness of our approach in presence of typical ECG artefacts. Comparison of short-term ECG recorded in normal subjects versus patients with myocardial infarction (MI) shows significantly increased QTV in patients (normal subject 2.36 ms ± 1.05 ms vs. MI patients 5.94 ms ± 5.23 ms (mean ± std), ). Evaluation of a standard QT database shows that 2DSW allows highly accurate tracking of QRS-onset and T-end. In conclusion, the two-dimensional warping approach introduced here is able to detect subtle changes in noisy quasi-periodic biomedical signals such as ECG and may have diagnostic potential for measuring repolarization lability in MI patients. In more general terms, the proposed method provides a novel means for morphological characterization of 1d signals.

Keywords

electrocardiography; feature extraction; medical signal processing; signal denoising; 2DSW method; ECG processing; ECG recordings; QT intervals; QTV; beat-to-beat variability extraction; correlation optimized warping technique; dynamic time warping technique; electrocardiography; morphological signal characterization; myocardial infarction; noisy quasiperiodic biomedical signals; one-dimensional signal warping; pattern similarity; signal-to-noise ratio; two-dimensional piecewise stretching; two-dimensional warping; ventricular repolarization lability; Correlation; Cost function; Electrocardiography; Heuristic algorithms; Physiology; Signal processing algorithms; Vectors; Dynamic time warping; ECG; QT; QT interval; QT variability; signal processing; two-dimensional warping; warping;

fLanguage

English

Journal_Title

Signal Processing, IEEE Transactions on

Publisher

ieee

ISSN

1053-587X

Type

jour

DOI

10.1109/TSP.2014.2354313

Filename

6891378