A Low-Cost, Offline-Capable Wireless Soil Moisture Monitoring System for Smallholder Farmers: Design, Validation, and Agronomic Impact
- Authors
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Suleiman ZUBAIR
Department of Telecommunication Engineering, Federal University of Technology, Minna, Nigeria
Author
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Hassan T. ABDULAZEEZ
Department of Cyber-Security Science, Federal University of Technology, Minna, Nigeria
Author
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Bala A. SALIHU
Department of Telecommunication Engineering, Federal University of Technology, Minna, Nigeria
Author
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Gambo MOHAMMED
Department of Electrical and Electronic Engineering, Abdullahi Fodio University of Science and Technology, Aliero, Kebbi State, Nigeria
Author
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- Keywords:
- Soil moisture monitoring, smart irrigation, capacitive sensor, GSM-SMS, ESP32, water-use efficiency, smallholder agriculture, open-source hardware, precision farming.
- Abstract
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Water scarcity and inefficient irrigation practices significantly constrain agricultural productivity, particularly among smallholder farmers in sub-Saharan Africa. Although precision agriculture technologies offer potential solutions, most existing systems are costly, require continuous internet connectivity, or involve complex technical infrastructures, limiting their adoption in resource-constrained environments. This paper presents a low-cost, offline-capable wireless soil moisture monitoring and irrigation control system designed to address these challenges. The system integrates a capacitive soil moisture sensor, an ESP32 microcontroller, and GSM-based SMS communication to enable real-time, data-driven irrigation decisions without internet dependency. A relay-controlled actuator is automatically triggered when soil moisture falls below agronomically defined thresholds, while farmers receive timely SMS alerts. The system was evaluated through laboratory calibration and field-based experiments. Validation against gravimetric soil moisture measurements yielded a strong correlation (R^2=0.94), while classification accuracy across dry, moist, and wet soil states reached 95.6%. Experimental results during a 14-day tomato cultivation cycle demonstrated a 32% reduction in water usage compared to conventional fixed-schedule irrigation. The total hardware cost of the system is approximately $90 (₦77,400), and all design files, firmware, and calibration protocols are provided as open-source resources to support reproducibility and scalability. User evaluation involving eight smallholder farmers indicated high usability, timely notifications, and perceived improvements in crop health. This work uniquely combines embedded systems engineering with applied agronomy to deliver a scalable, affordable, and farmer-centric irrigation solution, contributing to sustainable water management in resource-limited agricultural systems..
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- Published
- 25-03-2026
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Copyright (c) 2026 FUDMA Journal of Engineering and Technology
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
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