A Neutrosophic Logic Ruled Based Machine Learning Approaches for Chronic Kidney Disease Risk Prediction

Authors

Bhabani S.Mohanty
Krishna Priya R
Liya Alias
R. Vijaya Kumar Reddy
Prasanta Kumar Raut
Samson Isaac
Manibharathi D
C. Saravanakumar
Nihar Ranjan Panda
Said Broumi

Abstract

Chronic kidney disease (CKD) represents a significant global health challenge in society, and early detection of risk is essential for on-time treatment and intervention. This research suggests a novel machine-learning technique to create a reliable and accurate CKD risk prediction model by combining neutrosophic logic with various classification algorithms. We use neutrosophic logic to address the inherent imprecision and uncertainty in medical data, resulting in a more realistic portrayal of real-world scenarios. We measure the effectiveness of the proposed neutrosophic logic-based models using various metrics, including precision, specificity, and sensitivity. The results show that the neutrosophic logic method is better than traditional machine learning methods at finding people who are likely to develop CKD because it is more accurate and stable. This study illustrates the potential for incorporating neutrosophic logic into machine learning frameworks to improve risk prediction in medical fields.

Recommended Citation

S.Mohanty, Bhabani; Krishna Priya R; Liya Alias; R. Vijaya Kumar Reddy; Prasanta Kumar Raut; Samson Isaac; Manibharathi D; C. Saravanakumar; Nihar Ranjan Panda; and Said Broumi. "A Neutrosophic Logic Ruled Based Machine Learning Approaches for Chronic Kidney Disease Risk Prediction." Neutrosophic Sets and Systems 79, 1 (2025). https://digitalrepository.unm.edu/nss_journal/vol79/iss1/5