Flush-mounted parking sensors monitoring the occupancy of individual, on-street parking places. When there is a significant change in the magnetic field the sensor detects it and sends it to the sensor management system where an artificial intelligence-based algorithm decides whether the particular parking place is occupied or not.
The sensors’ detection mechanism can adapt to all types of parking places.
Our sensors communicate via NB-IoT network meaning that no additional nodes or gateways are required. This technology enables our sensors to live for more than 5 years without any external power source.
The system is continuously adapting to the environmental changes and auto-calibrates itself based on historical parking events enabling us to provide a reliability rate of over 99%.
Accurate and reliable vehicle detection regardless of weather, traffic and surface conditions.
Event-triggered, power-efficient communication enables the sensors to operate for 5+ years on average without any nodes or gateways.
Small-sized, flush-mounted, double cylindered construction ensures less demanding installation, protection from vandalism and quick replacement.
Continuous auto-calibration and adaptation to environmental changes ensures a 99% and above reliability rate.
“We are proud that we were the first in Budapest to introduce the smart parking experience to our citizens and visitors. Since the start of the system’s public operation in Sept 2019 the number of those who actively use the Parker application is continuously increasing, resulting in the improvement of parking statistics: the occupancy rate has increased and become territorially more balanced. Parking place-level statistics turned out to be extremely useful when it comes to the design of operation processes and other parking related concepts.”
Gergely Molnár Director of Public Space Management Authority, Belváros-Lipótváros, Budapest, Hungary