@article{article_1709984, title={PREDICTING WATER HARDNESS THROUGH DATA-DRIVEN INTELLIGENCE: A COMPARATIVE MACHINE LEARNING APPROACH}, journal={Konya Journal of Engineering Sciences}, volume={13}, pages={1094–1106}, year={2025}, DOI={10.36306/konjes.1709984}, author={Çoban, Erdem and Saplıoğlu, Kemal}, keywords={Water Hardness, Machine Learning, Prediction Models, Regression Analysis, Support Vector Regression, Random Forest, Multiple Linear Regression, Adaboost Algorithm}, abstract={Water hardness is a key parameter in evaluating water availability and plays a critical role in the development of sustainable water management strategies. In this study, water hardness was estimated using four advanced machine learning algorithms: Random Forest (RF), Support Vector Regression (SVR), Multiple Linear Regression (MLR), and AdaBoost. The input variables used for model training included sodium (Na), potassium (P), and anion-cation concentrations. The dataset was obtained from the Beşkonak flow measurement station located on the Köprüçay Stream in southern Turkey, which plays a vital role in the regional hydrological system. Model performance was assessed using statistical indicators such as mean square error (MSE), root mean square error (RMSE), coefficient of determination (R²), and mean absolute percentage error (MAPE). Among the evaluated models, MLR achieved the highest accuracy with an R² value of 0.9945, followed by SVR with 0.9939, AdaBoost with 0.9700, and RF with 0.9400. In terms of predictive error, MLR yielded the lowest RMSE value at 0.248, while SVR, AdaBoost, and RF recorded RMSE values of 0.264, 0.545, and 0.592, respectively. These results demonstrate that the MLR model outperformed the others in estimating water hardness, while the remaining models also produced acceptable levels of accuracy. This study provides a valuable contribution to the understanding of data-driven approaches for water quality assessment and offers insights for future water resource planning.}, number={4}, publisher={Konya Technical University}