Abstract
This study proposes electrocardiogram (ECG) identification based on non-fiducial feature extraction using window removal method, nearest neighbor (NN), support vector machine (SVM), and linear discriminant analysis (LDA). In the pre-processing stage, Daubechies 4 is used to remove the baseline wander and noise of the original signal. In the feature extraction and selection stage, windows are set at a time interval of 5 s in the preprocessed signal, while autocorrelation, scaling, and discrete cosine transform (DCT) are applied to extract and select features. Thereafter, the window removal method is applied to all of the generated windows to remove those that are unrecognizable. Lastly, in the classification stage, the NN, SVM, and LDA classifiers are used to perform individual identification. As a result, when the NN is used in the Normal Sinus Rhythm (NSR), PTB diagnostic, and QT database, the results indicate that the subject identification rates are 100%, 99.40% and 100%, while the window identification rates are 99.02%, 97.13% and 98.91%. When the SVM is used, all of the subject identification rates are 100%, while the window identification rates are 96.92%, 95.82% and 98.32%. When the LDA is used, all of the subject identification rates are 100%, while the window identification rates are 98.67%, 98.65% and 99.23%. The proposed method demonstrates good results with regard to data that not only includes normal signals, but also abnormal signals. In addition, the window removal method improves the individual identification accuracy by removing windows that cannot be recognized.
Highlights
Biometrics refers to the recognition of individuals based on physiological or behavioral characteristics [1]
The main consideration of this study is to evaluate whether the proposed window removal method is efficient for improving the identification rate according to the Normal Sinus Rhythm (NSR), PTB, and QT Database (QT DB), to analyze the recognition performance according to the nearest neighbor (NN), support vector machine (SVM), and linear discriminant analysis (LDA) classifiers, and to evaluate whether it is robust in environments containing normal, as well as abnormal, signals
NSR, PTB, and the QT DB are used to perform the method proposed in this study. 18 subjects in the Normal Sinus Rhythm Database (NSR DB), 50 subjects in the PTB Diagnostic Database (PTB DB), and 36 subjects in the QT DB are used
Summary
Biometrics refers to the recognition of individuals based on physiological or behavioral characteristics [1]. Representative biometric traits include the face, fingerprints, retina, iris, and voice. Various methods use these information sources to recognize individuals [2,3,4]. These traditional identification technologies have limitations, such as a limited scope recognition, as well as vulnerability to loss and duplication. For systems that require higher security, studies of the distinct biometric features of the principal subject to verification are actively being conducted.
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