Publications and Research
Document Type
Article
Publication Date
3-23-2025
Abstract
In response to the growing demand for efficient water management in agriculture, this research presents the development of an Arduino-ESP32 based automated irrigation system. The project integrates an Arduino microcontroller with an ESP32 module to facilitate real-time data collection and control of irrigation processes. Sensors monitor soil moisture, water levels, and local weather conditions, with data displayed on an LCD I2C screen for user accessibility. The ESP32 module handles alert notifications via text messages, keeping users informed remotely. Key components, including a water pump, valve, relay module, OLED screen, and LED display, are synchronized to ensure precise irrigation control. Additionally, an AC connector and speaker module provide safety alerts to support system operations. This system aims to reduce water waste, optimize irrigation cycles, and offer a user-friendly, data-driven solution for both agricultural and home garden applications. The findings will demonstrate the system's effectiveness in enhancing irrigation practices, highlighting its potential as a sustainable model for resource management in small-scale farming and gardening contexts.
Comments
Hassebo, A., & Montes, K. B. (2025, March), Arduino-ESP32 based Smart Irrigation System Paper presented at 2025 Northeast Section Conference, University of Bridgeport, Bridgeport, CT. 10.18260/1-2-119.1115-54981 © 2025 American Society for Engineering Education.
Received Best Student Paper Award at the 2025 American Society for Engineering Education Northeast Section (ASEE-NE) Conference, held at the University of Bridgeport on March 22, 2025.