In the recent years IoT technology has firmly established itself, thanks to its ability to easily monitor a variety of parameters, such as those relating to the conditions of machinery and plants of various kinds and the environments in which they operate. The best-known application of such data is the centralized monitoring of vital parameters that allow a more efficient exploitation as well as targeted and preventive maintenance interventions, further helped by the growing analytical capabilities of artificial intelligence.
The data collected thanks to the IoT can also be used to create new and powerful interactions between systems, such as building automation, creating a digital monitoring and control system for plants able to optimize the performance by achieving even higher standards of efficiency.