Abstract
In this paper we used two new features i.e. T-wave integral and total integral as extracted feature from one cycle of normal and patient ECG signals to detection and localization of myocardial infarction (MI) in left ventricle of heart. In our previous work we used some features of body surface potential map data for this aim. But we know the standard ECG is more popular, so we focused our detection and localization of MI on standard ECG. We use the T-wave integral because this feature is important impression of T-wave in MI. The second feature in this research is total integral of one ECG cycle, because we believe that the MI affects the morphology of the ECG signal which leads to total integral changes. We used some pattern recognition method such as Artificial Neural Network (ANN) to detect and localize the MI, because this method has very good accuracy for classification of normal signal and abnormal signal. We used one type of Radial Basis Function (RBF) that called Probabilistic Neural Network (PNN) because of its nonlinearity property, and used other classifier such as k-Nearest Neighbors (KNN), Multilayer Perceptron (MLP) and Naive Bayes Classification. We used PhysioNet database as our training and test data. We reached over 76% for accuracy in test data for localization and over 94% for detection of MI. Main advantages of our method are simplicity and its good accuracy. Also we can improve the accuracy of classification by adding more features in this method. A simple method based on using only two features which were extracted from standard ECG is presented and has good accuracy in MI localization.
Highlights
The electrocardiogram (ECG) signal is one of the most obvious effects of the human heart operation
The oscillation between systole and diastole states of the heart is reflected in the heart rate (HR) [1]
Best result for Detection and Localization of myocardial infarction (MI) was obtained by Probabilistic Neural Network
Summary
The electrocardiogram (ECG) signal is one of the most obvious effects of the human heart operation. One is the heart model in 17 segments that is used as an optimal model to predict and determine location of MI in various diagnostic methods such as imaging methods. In this model, the heart was named by being cut horizontally into three sections: Apical, Mid-cavity and Basal. In spite of the limitation of 12-leads standard system, it has been widely used for detection and localization, and to measure the strength of MI because of its simplicity and availability of its data in hospitals. In this paper by standard 12 lead ECG system, data to detect, localize and measure the strength of MI using Neural Network (NN) were presented
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