Live usage analyses
Live usage analyses refer to the real-time monitoring of building usage through IoT sensors and data platforms. They provide detailed information on space utilization, occupancy, and energy consumption to precisely manage processes, efficiently utilize resources, and reduce operating costs. These analyses offer actionable insights that enable data-driven decision-making in building management.
The technical foundation of live usage analyses lies in connected sensors that capture movement patterns, temperature, or CO₂ concentrations in real time. This data is wirelessly transmitted through technologies such as Bluetooth Low Energy (BLE) or mesh networks to central control systems or cloud-based platforms. Mesh networks with self-healing functionality ensure stable communication, even in complex building environments. The collected data is analyzed and processed to generate reports on space utilization and energy efficiency, aiding in the improvement of building operations.
Live usage analyses have practical applications across different types of buildings. In office spaces, they monitor space utilization and occupancy, enabling flexible workspace adjustments or the identification of underutilized areas. Industrial facilities benefit from the optimization of storage spaces and production areas through precise monitoring and planning. In residential buildings, analyses support demand-driven control of lighting or climate systems, enhancing comfort while simultaneously saving energy.
Live usage analyses are complemented by cloud-based platforms that collect and evaluate long-term data. These systems aid the development of sustainable building concepts and optimize operating costs through data-driven measures. Over-the-Air (OTA) updates keep IoT systems flexible and continuously updated to introduce new features or meet evolving security requirements.
Live usage analyses are a solution-oriented technology for building automation. They enable not only real-time monitoring of building usage but also the implementation of sustainable and efficient concepts. Furthermore, they promote resource optimization and the seamless operation of modern smart buildings.