RETRACTED ARTICLE: Multi-stage biomedical feature selection extraction algorithm for cancer detection

RETRACTED ARTICLE: Multi-stage biomedical feature selection extraction algorithm for cancer detection

Abstract Cancer is a significant cause of death worldwide. Early cancer detection is greatly aided by machine learning and artificial intelligence (AI) to gene microarray data sets (microarray data). Despite this, there is a significant discrepancy between the number of gene features in the microarr...

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Bibliographic Details
Main Authors: Ismail Keshta, Pallavi Sagar Deshpande, Mohammad Shabaz, Mukesh Soni, Mohit kumar Bhadla, Yasser Muhammed
Format: Article
Language:English
Published: Springer 2023-04-01
Series:SN Applied Sciences
Subjects:
Artificial intelligence
Cancer Detection
Feature Selection
Biomedical Image
Deep Feature Selection
Machine Learning
Online Access:https://doi.org/10.1007/s42452-023-05339-2
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Summary:Abstract Cancer is a significant cause of death worldwide. Early cancer detection is greatly aided by machine learning and artificial intelligence (AI) to gene microarray data sets (microarray data). Despite this, there is a significant discrepancy between the number of gene features in the microarray data set and the number of samples. Because of this, it is crucial to identify markers for gene array data. Existing feature selection algorithms, however, generally use long-standing, are limited to single-condition feature selection and rarely take feature extraction into account. This work proposes a Multi-stage algorithm for Biomedical Deep Feature Selection (MBDFS) to address this issue. In the first, three feature selection techniques are combined for thorough feature selection, and feature subsets are obtained; in the second, an unsupervised neural network is used to create the best representation of the feature subset to enhance final classification accuracy. Using a variety of metrics, including a comparison of classification results before and after feature selection and the performance of alternative feature selection methods, we evaluate MBDFS's efficacy. The experiments demonstrate that although MBDFS uses fewer features, classification accuracy is either unchanged or enhanced.
ISSN:2523-3963
2523-3971

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