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4 months ago
Regularized HessELM and Inclined Entropy Measurement for Congestive Heart Failure Prediction
Apdullah Yayık; Yakup Kutlu; Gökhan Altan
Abstract
Our study concerns with automated predicting of congestive heart failure (CHF) through the analysis of electrocardiography (ECG) signals. A novel machine learning approach, regularized hessenberg decomposition based extreme learning machine (R-HessELM), and feature models; squared, circled, inclined and grid entropy measurement were introduced and used for prediction of CHF. This study proved that inclined entropy measurements features well represent characteristics of ECG signals and together with R-HessELM approach overall accuracy of 98.49% was achieved.
Benchmarks
| Benchmark | Methodology | Metrics |
|---|---|---|
| congestive-heart-failure-detection-on-chf | Inclined Entropy (R-HessELM) | Accuracy: 98.49 Precision: 98.05 Sensitivity: 98.3 |
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