As the global energy demand continues to rise, so does the imperative to minimize consumption. The need for smarter, more efficient solutions has never been more pressing also our comfort is paramount in our daily lives. Extremes in temperature can disrupt productivity, impair sleep quality, and affect overall well-being. Traditional cooling or heating methods often fall short of providing consistent and personalized comfort, leaving us sweltering in heat waves or shivering in cold snaps. To overcome these problems we introduce, Smart Breeze.
The project draws upon foundational knowledge from all the electronic courses and programming courses supplemented by self-directed learning through resources like YouTube tutorials. It aims to integrate IoT technology with a temperature-controlled fan system. The project seeks to create an efficient and automated solution for maintaining desired temperatures in different environments by leveraging IoT principles. Integrating sensors, microcontrollers, and communication modules will enable real-time data collection and remote monitoring and control of the fan system. Through this project, the team aims to apply theoretical knowledge to practical applications and explore the potential of IoT in addressing real-world challenges.
It demonstrates the practical application of electronic knowledge gained from courses and self-learning. By integrating IoT technology with a temperature-controlled fan system, we have developed a functional solution for maintaining desired temperatures in various environments. The use of readily available components and basic electronic principles showcases the accessibility of such projects. Through hands-on experimentation and prototyping, we will gain valuable insights into circuit design, sensor integration, and microcontroller programming. This project serves as a test for the effectiveness of academic learning and the potential of IoT in addressing real-world challenges.
