Development of solar powered automated roof for a clotheslines home using arduino and IoT

Abdul Talib, Nurul Syahirah (2023) Development of solar powered automated roof for a clotheslines home using arduino and IoT. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

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Abstract

People increasingly spend less time at home because of corporate culture, and some rely on cutting-edge technologies for safety and other basic necessities. The shifting seasons are difficult to predict, especially when it is raining, which can impede drying and keep laundry moist. This issue happens when the consumer is not in an accessible location while it is rainy days. Other than that, Malaysia's equatorial location makes it Malaysia's equatorial location, it is difficult for users to figure out whether it will rain or be sunny on that day. These issues are addressed by smart home automation technologies. " Development Of Solar Powered Automated Roof For A Clotheslines Home Using Arduino And IoT," for example, handles such a problem. The scope of this project is which focuses on possible users, who are students and workers with busy schedule. This project's major goal is to develop and construct a climate-friendly automatic smart roof for cloth suspension, as well as to administer the automatic roof system using an ESP8266 NodeMCU and to analyze the efficacy of the roof system using a rain sensor. The design and implementation of this study allow users to use their smartphone to monitor the conditions of the laundry suspension area, design and develop a climate-friendly automatic clothes dryer, and then adjust the automatic suspension system. As expected, recommendations. hardware includes three different parts for sensing, driving, and notification systems. The ESP8266 NodeMCU controller controls the sensing and driving modules. The system can be controlled manually through the automatic roof application. The driving mechanism, similarly, found on numerous retractable roofs, is a motor. Because motors require servo mechanisms, servo motors are used as driving modules in this prototype. Moreover, unlike previous iterations, this proposal's approach appears simpler to create and more affordable to implement.

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