Application of a Hybrid Model for Data Analysis in Hydroponic Systems
Bakirov K. Tussupov J. Tussupov A. Shayea I. Shoman A.
May 2025Multidisciplinary Digital Publishing Institute (MDPI)
Technologies
2025#13Issue 5
This study presents a hybrid data analysis approach to optimize the growing conditions for beetroot and tarragon microgreens cultivated in hydroponic systems. Maintaining precise microclimate control is essential, as even minor deviations can significantly affect the yield and product quality, but traditional monitoring methods fail to adapt promptly to changing conditions. To overcome this limitation, an automated monitoring system integrating machine learning methods XGBoost 3.0.0, principal component analysis (PCA), and fuzzy logic was developed. The model continuously identifies the deviations in environmental parameters and recommends corrective actions to stabilize the growth conditions. Experimental evaluation demonstrated superior predictive performance by using XGBoost, achieving an accuracy and F1-score of 97.88%, ROC-AUC of 99.99%, and computational efficiency (training completed in 2.3 s), outperforming RandomForest and GradientBoosting algorithms. Real-time data collection was facilitated through IoT sensors transmitting readings via Wi-Fi every 5 s to a local server, accumulating approximately 17,280 records per day. The analysis highlighted air humidity, solution humidity, and temperature as critical influencing factors. This research confirms the developed system’s effectiveness in intelligent hydroponic monitoring, with future work aimed at integrating IoT and IIoT technologies for scalable management across diverse crops.
automated monitoring , crop yield prediction , data analysis , environmental parameters , fuzzy logic , hybrid model , hydroponic systems , machine learning , microgreens growth , XGBoost
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Faculty of Information Technology, L. N. Gumilyov Eurasian National University, Astana, 010000, Kazakhstan
Research and Innovation Center “AgroTech”, Astana IT University, Astana, 010000, Kazakhstan
Electronics and Communication Engineering Department, Faculty of Electrical and Electronics Engineering, Istanbul Technical University, Sarıyer, 34467, Turkey
Department of Intelligent Systems and Cybersecurity, Astana IT University, Astana, 010000, Kazakhstan
Faculty of Information Technology
Research and Innovation Center “AgroTech”
Electronics and Communication Engineering Department
Department of Intelligent Systems and Cybersecurity
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