ECG dataset description.

ECG dataset description.

<div><p>In health care, an accurate diagnosis with the help of a data-driven forecasting framework takes the risk factors associated with heart disease. However, building such an effective model using deep learning (DL) methods requires high-quality data, i.e., data free of outliers or a...

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Bibliographic Details
Main Author: Ritika Ritika (10667302) (author)
Other Authors: Rajender Singh Chhillar (22453795) (author), Sandeep Dalal (22453798) (author), Surjeet Dalal (4906894) (author), Iyyappan Moorthi (22453801) (author), Mitiku Dubale (12506099) (author), Arshad Hashmi (13835488) (author)
Published: 2025
Subjects:
Cancer
Science Policy
Space Science
Biological Sciences not elsewhere classified
Information Systems not elsewhere classified
risk factors associated
proposed methodology consists
nutrition recommendations based
methods requires high
current paper proposes
proposed model attain
controlling heart diseases
feature extraction methods
net dl model
feature extraction
net model
heart disease
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treatment individualization
thus improving
significantly better
prevailing models
phase three
phase four
phase five
pearson correlation
new approach
integrates cnn
inception net
health care
hamming loss
first phase
detected disease
angle detectnet
accurate diagnosis
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Summary:<div><p>In health care, an accurate diagnosis with the help of a data-driven forecasting framework takes the risk factors associated with heart disease. However, building such an effective model using deep learning (DL) methods requires high-quality data, i.e., data free of outliers or anomalies. The current paper proposes a new approach to diagnosing and controlling heart diseases by utilizing a multi-tiered data acquisition model, data pre-processing, feature extraction, and DL. The framework encompasses four types of datasets. The first phase of the proposed methodology consists of data acquisition, while the second phase includes advanced data preprocessing for each data type. In phase three, multi-feature extraction methods are used to extract the features from the dataset. In phase four, a combined feature selection technique of ReliefF and Pearson correlation is used to select the best features. Phase five of the study is the formulation of the CILAD-Net DL model that integrates CNN, Inception Net, LSTM, and Angle DetectNet to accurately detect heart disease. The sixth phase implements Deep Reinforcement Learning (DRL) for nutrition recommendations based on the detected disease, thus improving the treatment individualization. The developed model’s experimental outcomes are validated with other prevailing models in terms of accuracy, recall, hamming loss, and so on. Finally, the outcomes of the proposed model attain the higher accuracy of 0. 998 for the CILAD-Net model, which is significantly better than DenseNet-201 with 0. 988, ANN with 0. 987, KNN with 0. 977, and CL-Net with 0. 984.</p></div>

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