Publication

Abstract : The Event-Driven IoT(Internet of Things) Node presented in this project was created for ultra-low power sensing applications which uses asynchronous microcontroller concept. In general traditional clock-driven microcontrollers run continuously which results in wastage of energy so, to over come this drawback our proposed system operates on an event-driven concept, where the node stays in sleep state and only activates when triggered by major sensor events. Software based implementation is done using python for our system. In the proposed system Temperature, Humidity, and soil moisture values are monitored by the node, which only transmits data under unusual or threshold-crossing circumstances, this results in significant energy saving due to this selective activation which cuts downs significantly cuts down on unnecessary processing and transmission. Simulation results demonstrate that the proposed approach effectively extends system longevity and power efficiency, offering a scalable and sustainable solution for IoT based smart agriculture and other remoting applications.