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Winograd Transform-Based Fast Detection of Heart Disease Using ECG Signals and Chest X-Ray Images

Rishabh Anand, Adyasha Rath, Prabodh Kumar Sahoo, Prince Jain, Ganapati Panda, Xinhong Wang, Haipeng Liu

2025IEEE Access15 citationsDOIOpen Access PDF

Abstract

In resource-constrained environments, efficient feature extraction is crucial for applications in classification and prediction tasks. This study investigates a fast, DFT-based, one-dimensional Winograd Transform (WT) to extract convolution-based features from 1-D ECG signals. For two-dimensional (2-D) Chest X-Ray (CXR) images, 2-D DFT-based convolution is employed to generate features. Traditional multi-stage convolution methods for feature extraction can be slow and computationally intensive. Therefore, to improve speed and accuracy in heart disease (HD) detection, WT-based convolution methods for both 1-D and 2-D data are applied to extract features from ECG signals and CXR images. These features serve as inputs for AI-based detection models, with six machine learning (ML) and four deep learning (DL) models developed for HD detection. Using standard datasets, extensive simulations were conducted, yielding various performance metrics that were analyzed and compared. Additionally, the feature extraction and model training times were evaluated and compared. The comparative analysis demonstrates that WT-based feature extraction significantly reduces processing time for both 1-D and 2-D data types. The WT-based method achieved speedups of x times for 1-D and y times for 2-D feature extraction relative to traditional convolution methods. Performance metrics, including classification accuracy (0.94) and AUC scores (0.98), remained consistently high across models, confirming that WT-based circular convolution offers a practical and effective solution for real-time heart disease detection. This approach enhances diagnostic capabilities in healthcare by enabling resource-efficient, real-time feature extraction in medical image and signal processing.

Topics & Concepts

Computer scienceElectrocardiographyArtificial intelligenceComputer visionCardiologyMedicineBrain Tumor Detection and ClassificationECG Monitoring and Analysis
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