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KMID : 1144120140040030277
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Biomedical Engineering Letters
2014 Volume.4 No. 3 p.277 ~ p.284
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Function mapped trajectory estimation for ECG sets
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Nair Anish
Kiasaleh Kamran
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Abstract
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Purpose: The main purpose of this paper is to present two significant contributions in characterizing electrocardiogram (ECG) signal sets. The first contribution of the paper is the introduction of a functional map representation of atrial fibrillation ECG signal sets using chaotic maps. Second contribution of this paper is to demonstrate the effectiveness of the recurrence period density entropy (RPDE) index as an effective tool in tracking changes in rhythmic behavior of ECG signals.
Methods: For the first contribution, the ECG time series is tested for chaotic nature using Lyapunov exponents. If chaotic pattern is found, phase embedded plots are extracted to compare the plots with ones of chaotic mapping functions. Kernel density estimator is used for calculating the probability density function for markovian trajectory estimation model. For the second contribution recurrence period indexes and plots are used to track changes in rhythmic behavior.
Results: The effectiveness of the proposed trajectory estimation model in estimating future probabilities of ECG signal sets, is tested using mean-squared error metric. RPDE indexes and plots provide good results in tracking the onset of changes in the condition of the patient form the state of normal ECG rhythm to the state of atrial fibrillation and sudden cardiac arrest.
Conclusions: Hence by using chaotic signals to functionally represent ECG signal sets, we attempt to reduce the ambiguity associated with the trajectory estimation and with RPDE indexes/plots, the transitions in rhythmic behavior become more prominent for analysis.
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KEYWORD
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Electrocardiogram, Chaotic map, Trajectory estimation, Recurrence period density entropy
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