Condition monitoring

Condition monitoring refers to the continuous collection and analysis of device status within connected systems. It is used to detect malfunctions or deviations from normal operational conditions early, enabling targeted measures before critical failures occur. Condition monitoring is a key element of smart building automation and plays an essential role in approaches like predictive maintenance.

Technically, condition monitoring relies on a network of sensors and IoT devices that gather operational data such as temperature, vibration patterns, energy usage, or humidity levels. These sensor data are processed in real time on IoT platforms to identify anomalies or critical values. For instance, a temperature sensor can immediately trigger an alert in case of overheating, or a vibration sensor can detect mechanical issues early. The data are graphically processed, analyzed, and automatically relayed to enable quick and precise decision-making.

Practical applications include the monitoring of heating and ventilation systems, which can detect deviations in temperature or energy consumption promptly. Within energy management systems, consumption data are tracked to identify and optimize inefficient devices. Vibration sensors can detect mechanical wear in air conditioning units or pump systems before failures impact the entire system control.

Complementary technologies like sensor fusion and IoT platforms extend the possibilities of condition monitoring. While sensor fusion consolidates data from various sensors, IoT platforms provide centralized analysis and visualization of device status. This allows the creation of comprehensive reports and real-time alerts, enabling more precise control and maintenance.

Condition monitoring creates transparency and efficiency in the operation of smart buildings. It not only enhances operational safety and sustainability but also enables proactive action through early problem detection.