Development of IoT Based Aeroponics System/
Marian Denille E. Orgonio, and Junard Cassius Niel D. Ranille..-
- Manila: Technological University of the Philippines, 2025.
- xi, 103: 29cm
Bachelor's Thesis
College of Industrial Technology..-
Includes bibliographic references and index.
The Development of IoT-Based Aeroponics System project study was designed to monitor, detect, and provide efficiency for modern technology when dealing with farming. This IoT-based aeroponics automation system is intended for fruit cultivation at optimal environmental conditions with very minimal human intervention. The critical environmental parameters like temperature, humidity, pH level, and intervals for nutrient misting are continuously monitored through sensors. Based on real-time data, the system uses programmed microcontrollers to automatically adjust these variables, always ensuring ideal growth conditions. Additionally, the system can provide alarms and performance updates via a linked interface, allowing users to remotely monitor and manage the configuration. This level of automation enhances efficiency, reduces resource wastage, and supports consistent plant development. All the tests were performed and met the expected outcomes. Thus, all the evaluation results passed. It was evaluated by 25 respondents, composed of 11 Students and 14 Farmers in Laguna, and was assessed using Likert’s Scale and descriptive interpretation, which used the TUP evaluation instrument to get all the means for Performance Efficiency, Reliability, Usability, Portability, and Satisfaction. The grand mean obtained was 4.21 out of 5, which is described as “Very Good”. The study concluded based on it findings and result that (1) the prototype can grow fruits aeroponically; (2) the project is highly functional and recommended for small scale businesses not only to farmers but also to simple people like us; (3) the use local and cheap yet high quality materials maintains the projects quality and efficiency; and (4) the advice and recommendations of panels and technical experts contributed to the projects feasibility. Keyword: IoT-Based Aeroponics System, Automation, Temperature, Humidity, pH Level, Misting Interval
Electronics Engineering Technology IoT-Based Aeroponics System Automation