Automated Solar Powered Water Irrigation Monitoring Device: An Analysis

       The study focuses on the challenges faces in agricultural sector in the Philippines such as water scarcity and insufficient irrigation systems. The study seeks to evaluate the influence of the proposed Automated Solar Powered Water Irrigation Monitoring Device technology on increasing agricultural productivity, reducing water waste, and producing high-quality food, all while benefiting diverse stakeholders such as farmers, consumers, government, rural communities, researchers, innovators, and future researchers.The fundamental principle revolves around the integration of both hardware and software components to create a smart irrigation system. Meanwhile, they decided to implement a unique control action for various soil moisture ranges from dedicated sensors for each crop species, leading to precision in irrigation. Furthermore, the system consists of three sensor unit boxes, each housing a network of five Soil Moisture Sensors, an Arduino UNO Microcontroller (Slave Arduino), and Nrf24L01+ transceivers. These sensors measure soil moisture, providing values ranging from 420 to 1023, allowing for precise assessments of soil conditions.Therefore, the results of overall validity and implemented experiments and tests of the device can fully satisfy the quality of the study. The device is a highly effective solution for increasing agricultural vegetable production.