INTERNATIONAL RESEARCH JOURNAL OF MODERNIZATION IN ENGINEERING TECHNOLOGY AND SCIENCE

Abstract

The The Smart Plant Watering System project epitomizes a groundbreaking fusion of technological innovation and ecological stewardship, aiming to redefine conventional plant care methodologies through automation and precision. This pioneering endeavor seeks to revolutionize the cultivation landscape by introducing an intelligent, sensor-driven system designed to optimize plant hydration and promote sustainable water management practices. The crux of this project lies in its utilization of cutting-edge sensor technology, encompassing a network of soil moisture sensors and environmental data collectors strategically positioned to capture real-time information vital for gauging plant health. The integration of the Nodemcu ESP8266 microcontroller serves as the system's neural center, orchestrating data interpretation, algorithmic decision-making, and precise control mechanisms. Adaptive algorithms, fueled by sensor data inputs, empower the system to craft bespoke watering schedules tailored to the unique hydration needs of diverse plant species, mitigating risks of both overwatering and underwatering. Moreover, the system boasts user-friendly interfaces enabled through the application, offering remote monitoring, customizable watering preferences, and seamless integration within broader IoT ecosystems. Significantly, this project not only seeks to enhance plant vitality and growth but also champions sustainability by optimizing water consumption, reducing environmental impact, and fostering responsible irrigation practices. This comprehensive abstract encapsulates an ambitious endeavor at the forefront of technological innovation and environmental consciousness, envisioning a future where smart solutions harmonize with nature to cultivate healthier, more sustainable ecosystemsKeywords: Nodemcu ESP8266, Soil moisture sensor, Arduino UNO, Two Channel Relay Module, overwatering control

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