Underground car parks and parking areas are continuously accessible infrastructure spaces with changing traffic volumes. Lighting must combine safety, orientation and energy efficiency. Sensors detect vehicles and people, while luminaires indicate available spaces and lighting intelligently moves with actual usage.
Traditional parking areas are often permanently illuminated, although only certain zones are used. Operators need safe routes, clear parking indication, reliable vehicle counting and transparent energy data. At the same time, maintenance, orientation and operation should work as automatically and efficiently as possible.
The light control system enables zoned swarm intelligence: lighting follows vehicles and people through the parking area according to demand. Integrations adds vehicle counting, parking space indication and free/occupied signalling via luminaires. Dashboards make occupancy, energy, status and maintenance centrally visible.
connects luminaires across zones so that light follows movement predictively
visualises occupancy, status, faults, energy consumption and operating states
connects the underground car park, lighting control and sensors to central building automation
reduces consumption through swarm intelligence, dimming, sensors and demand-based activation
adapts lighting levels to times of day, night operation, cleaning or maintenance windows
detects vehicles and people and activates lighting only in areas that are actually in use
form the connected swarm lighting for driving lanes, parking spaces and safety areas
erfassen Personenströme, Bewegungen und Auslastung in Zugangs- und Verkehrsbereichen
integrates the underground car park and lighting control into BMS, building management and central building systems
controls dimmable parking luminaires, safety lighting and defined lighting levels
enables wireless lighting zones, swarm behaviour and flexible retrofitting
activate manual modes such as maintenance, cleaning, special operation or emergency mode directly on site
integrates parking areas, sensors and lighting control into the central building interface