2019
DOI: 10.1038/s41598-019-51061-8
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Phase Space Reconstruction Based CVD Classifier Using Localized Features

Abstract: This paper proposes a generalized Phase Space Reconstruction (PSR) based Cardiovascular Diseases (CVD) classification methodology by exploiting the localized features of the ECG. The proposed methodology first extracts the ECG localized features including PR interval, QRS complex, and QT interval from the continuous ECG waveform using features extraction logic, then the PSR technique is applied to get the phase portraits of all the localized features. Based on the cleanliness and contour of the phase portraits… Show more

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Cited by 18 publications
(16 citation statements)
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“…In [42] , the authors achieve a higher efficiency and accuracy rate using SVM classifier by reducing the features using the Gaussian Discriminant Analysis (GDA) algorithm. The article, [43] gives the clear efficiency difference of SVM classifier and k-nearest neighbors (KNN) classifier for QRS complex detection for various models in Fig 1 , Fig 2 , which are taken from the above-mentioned paper.
Fig 1 Accuracy- SVM-91.3%, KNN-89.9% [43]
Fig 2 Accuracy- SVM-92.9%, KNN-88.4% [43]
…”
Section: Related Workmentioning
confidence: 99%
See 1 more Smart Citation
“…In [42] , the authors achieve a higher efficiency and accuracy rate using SVM classifier by reducing the features using the Gaussian Discriminant Analysis (GDA) algorithm. The article, [43] gives the clear efficiency difference of SVM classifier and k-nearest neighbors (KNN) classifier for QRS complex detection for various models in Fig 1 , Fig 2 , which are taken from the above-mentioned paper.
Fig 1 Accuracy- SVM-91.3%, KNN-89.9% [43]
Fig 2 Accuracy- SVM-92.9%, KNN-88.4% [43]
…”
Section: Related Workmentioning
confidence: 99%
“…The article, [43] gives the clear efficiency difference of SVM classifier and k-nearest neighbors (KNN) classifier for QRS complex detection for various models in Fig 1 , Fig 2 , which are taken from the above-mentioned paper.
Fig 1 Accuracy- SVM-91.3%, KNN-89.9% [43]
Fig 2 Accuracy- SVM-92.9%, KNN-88.4% [43]
…”
Section: Related Workmentioning
confidence: 99%
“…Machine learning methods have been used for ECG analysis in a variety of applications. There has been a wealth of work in the classification of various Cardiovascular Diseases (CVDs) from ECG data [30,29,27,26,31,25,14,8,33]. Other applications of machine learning in ECG analysis include detecting seizures and heart attacks [18,19], predicting patients' blood pressure [24], detecting a patients facial expressions [6] and analysis of ECG of the brain has been used for creating brain computer interfaces (BCI) capable of detecting which body Figure 2.…”
Section: Related Workmentioning
confidence: 99%
“…Box counting as well as column and row statistics are features o en extracted from the PSR matrix of ECG data. These methods have been used in the prediction of CVD [30,29,27,26], creating BCIs [5,7], and detecting facial expressions [6]. These approaches all centre around manually selecting features to extract from the PSR matrix.…”
Section: Related Workmentioning
confidence: 99%
See 1 more Smart Citation