Advanced Machine Learning Approaches for Breast Cancer Detection with Neutrosophic Sets

Authors

Hussam Elbehiery
Hanaa fathi
Mohamed Eassa
Ahmed Abdelhafeez
Mohamed Refaat Abdellah
Hadeer Mahmoud

Abstract

Breast Cancer (BC) remains a significant health challenge for women and is one of the leading causes of mortality worldwide. Accurate diagnosis is critical for successful therapy and increased survival rates. Recent advances in medical imaging and computational technologies have enabled more precise methods of detecting and evaluating breast cancer. Accurate analysis and diagnosis utilizing medical imaging have developed as essential research topics, providing important help in clinical decision making for various illnesses, including breast cancer. Machine learning (ML) can accurately predict breast cancer. But the breast cancer data has vague and uncertainty information. So, the neutrosophic sets (NSs) are used in this study to deal with uncertainty data. We convert the original dataset into neutrosophic data with three components such as truth, indeterminacy, and falsity values. Then we applied four ML models with N-data such as logistic regression, gradient boosting (GB), k-nearest neighbor (KNN), and support vector machines (SVM), to improve diagnostic accuracy. Then we compared the ML models with and without using N-data. The results show the logistic regression has higher accuracy with 98.6% with the N-data and 95.80% without N-data. So, the NSs can improve the accuracy of ML models

Recommended Citation

Elbehiery, Hussam; Hanaa fathi; Mohamed Eassa; Ahmed Abdelhafeez; Mohamed Refaat Abdellah; and Hadeer Mahmoud. "Advanced Machine Learning Approaches for Breast Cancer Detection with Neutrosophic Sets." Neutrosophic Sets and Systems 81, 1 (2025). https://digitalrepository.unm.edu/nss_journal/vol81/iss1/17