Recognition of Chronic Kidney Disease Using Machine Learning

Chronic kidney disease (CKD) is a global prevalent ailment that causes lives in a predominant number. CKD is the 11th most deadly cause of global mortality with 1.2 million death each year and according to kidney Foundation of Bangladesh, around 40,000 CKD people experienced kidney failure annually as well as several thousand passed away in short stage of life because of CKD. Predictive analytics for healthcare using machine learning is a challenged task to help doctors decide the exact treatments for saving lives. Scientist researched collaboratively chronic kidney diseases, with the majority of their work on pure statistical models, generating numerous gaps in the development of machine-learning models. In this work we discussed the current methods and suggested improved technology based on the Correlation, which combined significant characteristics of the F scores and evaluated two pre- processing scenarios. In addition, we provided machine training methods for anticipating chronic renal disease with clinical information. Two techniques of master teaching are explored like Random Forest Classifier (RFC) and Logistic Regression (LR). The components are made from UCI dataset of chronic kidney disease and the results of these models are compared to determine the best regression model for the prediction. From this two preprocessing cases, replacing missing values with mean values of each column and choosing important features was most logical as it allows to train with more data without dropping. However, correlation gave the best outcomes in both two cases where it obtained 98% accuracy. Thus, the system can be implemented for early stage CKD prediction in a cost efficient way which will be helpful for under developed and developing countries.