Employing Cross-Platform Smart Home Control System with IOT Technology Based

Abstract

The proposed method changes the original remote controller for home appliances become IOT (internet of things) technology-based and cross-platform control by the smart phone remote wireless control. In our research, smart phone will replace the traditional remote control operation. When the controller press mobile Web App, in addition to the circuit module will emitting infrared signals, our hardware module will also upload information to the cloud database. Such an innovative approach would be able to provide accurate monitoring by real-time monitoring status and real-time analysis. In the proposed smart home embedded system, data sent back from each sensor inside the household can be instantaneously analyzed, Furthermore, the use of Network Address Translation (NAT) technology to control remotely via the Internet. In terms of the construction process of the smart factory system, this dissertation proposes an instantaneous method that carries out the monitoring of factory area temperature, humidity and air quality using smart mobile phone. At the same time, the system detects potential flame, analyze and monitor power loading. These monitoring also include shock detection of operating machines in factory premises. The study proposes integrating ZigBee and Wi-Fi protocol smart monitoring system in the structure of the whole factory. Via ZigBee communication Protocol, the sensors in the factory transmit messages and the instantaneously detected data to the integrated regulating system. Lastly, this research study will, in depth, analyse hands-on problems generated during instantaneous integration of signal packing for various communication protocols. As well as composing the know-how of overcoming these problems using the innovative methods of this study while proposing efficient solution schemes. The above become the greatest features in the building of this integrated regulation system.