RETRACTED ARTICLE: High-performance in classification of heart disease using advanced supercomputing technique with cluster-based enhanced deep genetic algorithm

In the world, cardiovascular disease is a common, debilitating disease that affects human lives in many different ways. It is important to detect heart disease effectively and reliably in order to avoid potential heart failures. Since heart failure is a major risk, it should be successfully treated...

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Bibliographic Details
Published in:The Journal of supercomputing 2021, Vol.77 (9), p.10540-10561
Main Author: Bakhsh, Ahmed A.
Format: Article
Language:English
Subjects:
Cardiovascular disease
Classification
Clustering
Compilers
Computer Science
Genetic algorithms
Heart
Heart diseases
Interpreters
Machine learning
Mobile and Intelligent Sensing on High Performance Computing
Neural networks
Optimization
Processor Architectures
Programming Languages
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Summary:In the world, cardiovascular disease is a common, debilitating disease that affects human lives in many different ways. It is important to detect heart disease effectively and reliably in order to avoid potential heart failures. Since heart failure is a major risk, it should be successfully treated in the early stages of heart disease. Many programs exist that can diagnose heart disease at an early stage using machine learning techniques. But these predictive systems are difficult to predict the heart conditions accurately with a minimum of time. Today, the stochastic gradient boosting with recursive feature elimination approach has been developed for feature selection. The results of the clustering were based on the adaptive Harris Hawk optimization algorithm. The selected features allowed us to better identify people with heart disease because they all have the same features. Classification is achieved using an improved deep genetic algorithm (EDGA). The system enhances the DNN's initial weights by using an augmented genetic algorithm and proposing the best initial weights for the DNN using neural network. The technique is illustrated using the publicly accessible dataset from the UCI machine learning repository. The study found that EDGA is well suited for predicting heart disease.
ISSN:0920-8542
1573-0484
DOI:10.1007/s11227-021-03689-5