TY - JOUR KW - chronic kidney disease KW - CKD prediction KW - bat algorithm KW - grey wolf optimizer KW - hybrid optimization KW - feature selection KW - machine learning AU - Waheeda Almayyan AU - Bareeq AlGhannam AB -

Chronic Kidney Disease (CKD) is a significant global health concern characterized by major global health issues defined by progressive kidney damage. Early detection is essential for chronic kidney disease (CKD) as it often progresses silently and can lead to severe complications. This study introduces a novel hybrid optimization algorithm, combining the Bat Algorithm (BA) and Grey Wolf Optimizer (GWO), to address the challenges of CKD prediction. By leveraging BA’s exploration capabilities and GWO’s exploitation potential, the proposed algorithm effectively searches for optimal solutions, enhancing the accuracy and efficiency of CKD diagnosis. The proposed algorithm, termed BAGWO, iteratively refines solutions through a two-stage process, enhancing the model’s ability to converge on accurate and informative results. This algorithm not only enhanced classification accuracy but also reduced the feature set to only six attributes. The Random Forest classifier resulted in a recognition rate of 99.5 %, making it the top-performing classifier.

BT - Information & Security: An International Journal DO - https://doi.org/10.11610/isij.5508 IS - 2 N2 -

Chronic Kidney Disease (CKD) is a significant global health concern characterized by major global health issues defined by progressive kidney damage. Early detection is essential for chronic kidney disease (CKD) as it often progresses silently and can lead to severe complications. This study introduces a novel hybrid optimization algorithm, combining the Bat Algorithm (BA) and Grey Wolf Optimizer (GWO), to address the challenges of CKD prediction. By leveraging BA’s exploration capabilities and GWO’s exploitation potential, the proposed algorithm effectively searches for optimal solutions, enhancing the accuracy and efficiency of CKD diagnosis. The proposed algorithm, termed BAGWO, iteratively refines solutions through a two-stage process, enhancing the model’s ability to converge on accurate and informative results. This algorithm not only enhanced classification accuracy but also reduced the feature set to only six attributes. The Random Forest classifier resulted in a recognition rate of 99.5 %, making it the top-performing classifier.

PY - 2024 SE - 199 SP - 199 EP - 212 T2 - Information & Security: An International Journal TI - A Hybrid Bat-Grey Wolf Algorithm for Predicting Chronic Kidney Disease VL - 55 ER -