Wireless network
A wireless network enables communication between devices via electromagnetic signals. Wireless networks serve as flexible infrastructure that facilitates connections between various system components - without the extensive wiring required by traditional technologies. Wireless networks are easily scalable and ideal for dynamic demands in new constructions or retrofitting older buildings.
Modern wireless networks utilize efficient technologies such as Bluetooth Low Energy (BLE) and other wireless communication protocols. BLE-based mesh networks ensure stable and energy-efficient data transmission, even within complex building structures. Features like “self-healing mesh” activate alternative data paths in case of connectivity disruptions. This ensures reliable communication and allows the network to remain flexible and expandable even during unexpected issues.
Wireless networks offer numerous advantages. They enable demand-driven control of lighting, climate systems, and security mechanisms while preventing energy losses through precise resource management. They also simplify the integration of IoT sensors and mobile control tools, making building management more intuitive and efficient. Another advantage is centralized monitoring, which provides real-time data for systems like asset tracking and workspace booking, thereby supporting optimized space utilization.
Thanks to their flexible architecture, wireless networks are highly suitable for applications with constantly changing requirements. They serve as the foundation for real-time monitoring and enable future-proof integration of new technologies due to their seamless scalability. In addition to improving operational efficiency, they contribute to achieving sustainability goals by ensuring energy is used on demand and resource consumption is reduced.
Wireless networks are an essential part of modern communication technology. They combine wireless solutions with operational efficiency and sustainability to make processes smarter and more flexible.