Abstract
This study presents and evaluates the mathematical model to estimate the mean and variance of single-lead ECG signals in sleep apnea syndrome. Our objective is to use the volatility property of the ECG signal for modeling. ECG signal is a stochastic signal whose mean and variance are time-varying. So, we propose to decompose this nonstationarity into two additive components; a homoscedastic Autoregressive Integrated Moving Average (ARIMA) and a heteroscedastic time series in terms of Exponential Generalized Autoregressive Conditional Heteroskedasticity (EGARCH), where the former captures the linearity property and the latter the nonlinear characteristics of the ECG signal. First, ECG signals are segmented into one-minute segments. The heteroskedasticity property is then examined through various tests such as the ARCH/GARCH test, kurtosis, skewness, and histograms. Next, the ARIMA model is applied to signals as a linear model and EGARCH as a nonlinear model. The appropriate orders of models are estimated by using the Bayesian Information Criterion (BIC). We assess the effectiveness of our model in terms of mean square error (MSE), root mean square error (RMSE), mean absolute error (MAE), and mean absolute percentage error (MAPE). The data in this article is obtained from the Physionet Apnea-ECG database. Results show that the ARIMA-EGARCH model performs better than other models for modeling both apneic and normal ECG signals in sleep apnea syndrome.
Highlights
ECG signal has an essential role in medical diagnosis for the study of cardiac function and abnormalities
All signals were segmented into one-minute segments, and each segment was labeled as apnea or normal by physicians
We calculated the loglikelihood amount of Generalized Autoregressive Conditional Heteroskedasticity (GARCH), GJR-GARCH, and Exponential GARCH (EGARCH) to find the best model among the others
Summary
ECG signal has an essential role in medical diagnosis for the study of cardiac function and abnormalities. Considering the abnormal activity of heart or heart rate variation (HRV) could be an indicator of some diseases such as congestive heart failure (CHF) [1], sudden cardiac death (SCD) [2], and obstructive sleep apnea (OSA) [3]. Untreated OSA can cause depression, high blood pressure, stroke, hypertension, death, and an increased risk of long-term and short-term disease. It increases the risk of myocardial infarction by up to 20% and heart attack by up to
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