Thesis Bachelor of Technology Major in Electrical Technology University of Rizal System-Morong 2024

This study aimed to design and develop an Solar-Powered Automatic Clotheslines. To evaluate its performance, various variables such as functionality, compatibility, usability, reliability, security, maintainability, were considered. The study was conducted at the University of Rizal System, Morong Campus located at Sumulong St. Barangay San Juan Morong, Rizal during the school year 2023-2024. The researchers built and developed the output device in a residential house located in Baranggay Batingan Binangonan, Rizal. The study focused on developing Solar-Powered Automatic Clothesline aimed at improving clothesline in residential areas. Traditional automatic clothesline have limitations like high costs and delayed detection. The system uses solar-powered sensors that detect rain such as moisture. These sensors are connected via the Arduino Uno for real-time monitoring, ensuring early rain detection and timely alerts. The use of solar power ensures that the system operates even during power outages, making it highly reliable in emergencies. Moreover, by using Arduino Uno, the system allows for continuous monitoring, enabling quicker response times. This enhances rain safety and reduces the risk of motor, which are common in traditional systems. The system's maintenance and efficiency make it a good option for residential areas that experience frequent rainfall. The study also identifies the system’s performance, showing it to be highly acceptable in terms of functionality, compatibility, usability, reliability, security, and maintainability. The results suggest that this system could be widely adopted due to its efficiency and ease of use. The researchers recommend enhancing sensor range in environments where wide-area coverage is essential. These sensors can detect rain hazards over greater distances, improving the overall effectiveness of the detection system, and Propose creating rules and standards for the installation and maintenance of Arduino Uno, solar-powered automatic clothesline to assure safety and reliability. Further research and development are needed to increase the efficiency and reliability of solar-powered devices in a variety of environments. These recommendations could help enhance the system’s efficiency and improve its ability to detect rain.