Automated Solar-Powered Aeroponics Structure for Plant Cultivation and Monitoring.

Global food security is at risk due to climate change and outdated agricultural technology. The application of readily available technology and input management increased the food supply by 10 to 30 percent, raising a need for alternative farming practices. Furthermore, this study designed, developed, tested, and evaluated an automated, solar-powered aeroponics structure for plant cultivation and monitoring. A research and development approach was used, adapting the iterative model with its four phases: design (planning the prototype), development (creating program logic and assembling components), testing (functionality testing), and evaluation (assessing strengths and weaknesses of the prototype), creating a manageable and flexible workflow, allowing the researchers to incorporate changes based on ongoing feedback. The researchers constructed a prototype with three (3) main components: a growing chamber, a control panel, and a water reservoir. This system was programmed to read and transmit sensor data to the cloud for monitoring. Testing confirmed the functionality of all parts, and evaluation revealed the prototype to be both user-friendly and adaptable to user preferences. In conclusion, the aeroponics structure's high ratings in functionality, acceptability, and adaptability demonstrate a well-performing and user-friendly prototype. This aeroponics system offers a promising and efficient way to advance agricultural practices through its high adaptability to a wide range of conditions. Farmers will be able to modify the aeroponics structure to grow a variety of crops, including vegetables, as it advances. Moreover, the system requires less manual labor due to its automated features, making it an efficient and convenient agricultural innovation. [ABSTRACT FROM AUTHOR]