IoT Based Smart Induct

The contemporary kitchen landscape is undergoing a transformative evolution with the integration of Internet of Things (IoT) technology into conventional household appliances. This paper explores the design, implementation, and comprehensive evaluation of an IoT-enhanced induction stove, positioning it at the forefront of the smart kitchen revolution. The induction stove is augmented with a network of sensors, actuators, and communication modules, enabling real-time data acquisition, adaptive control, and seamless connectivity to a dedicated mobile application. The system architecture is meticulously designed to provide precise temperature control, optimize energy efficiency, and enhance overall user experience. The methodology encompasses sensor calibration procedures to ensure accurate readings and the implementation of standardized IoT communication protocols, particularly Serial Port Protocol (SPP), for efficient data transmission. A dedicated mobile application serves as the user interface, offering real-time monitoring, remote control capabilities, and safety alerts. Experiments conducted under various cooking scenarios validate the system’s performance, showcasing superior temperature control and energy efficiency compared to traditional induction stoves. The study also addresses usercentric aspects, revealing positive feedback on the intuitive interface and remote- control features. The comparative study against conventional stoves further emphasizes the advantages of IoT integration. The cooking table provides a forward-looking perspective, offering valuable insights into the stove’s potential for future innovations and enhancing its practical applicability in modern households.