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PARKING SPACES IN PUBLIC CAR PARK


The smart solution for parking space detection in public car parks counts the vehicles entering and exiting by means of sensors placed at the access gates. Through the wireless communication module, data is transmitted to CLOUD, the parking-space monitoring platform. Once recorded, data is displayed real time on variable message signs and on user applications.

The entry/exit control device behaves like an IoT sensor, ensuring permanent direct connection between itself and the CLOUD parking space monitoring platform.

Devices only need to be installed at access gates, with no upper limit as to the number of devices that can be installed. A sensor is not required for each parking spot; therefore, equipment purchasing and installation costs are reduced. Additionally, different car parks can be integrated onto the same platform, allowing joint processing of information.

MONITORING OF RESTRICTED PARKING SPACES

This solution consists of wireless sensors that detects the variation of the magnetic field generated by vehicle entries and exits on parking spaces, through the built-in NB-IoT module. The information is then transmitted to the CLOUD platform.

NB-IoT technology has been developed to allow efficient communication with excellent coverage and penetration indoors and underground. The technology also reduces consumption to a minimum to achieve a longer battery life, ideal for devices that transmit little data and need a long life cycle.

The measurements are obtained in real time, and the frequency of data transmission to the CLOUD can be configured through the user application. Within the application, you can access the data from your installation: historical information, graphs, reports, state of the device… All features can be associated with alarms and alerts.

ENTRY/EXIT CONTROL DEVICE

The main technical features of the device are:

  • DIN rail mounting. DIN6 size.
  • 230VAC power supply.
  • Detection by independent inductive sensors to register the entries and exits.
  • MODBUS RTU communications port for communication with variable message signs.
  • Configurable communication parameters to control data flow.
  • The device is connected directly to the cloud without intermediate points via Wi-Fi, GPRS or LTE-NB; M2M device connectivity are included.
  • TCP/IP protocol in communications between entry/exit control and CLOUD parking space monitoring platform to ensure security and compatibility.
  • The device works independently from the CLOUD parking space monitoring platform in the event of connection failure with CLOUD. Records will continue being taken and alarms will be detected, which will be transmitted as soon as the connection is resumed.
  • Data sent to CLOUD with configurable regularity (from real-time to daily).

The main technical features of the line controller are:

  • IP65 waterproof rating.
  • Power Supply 230VAC, and between 5 and 24VDC.

Common features:

  • The device is connected directly to the cloud without intermediate points via Wi-Fi, GPRS or LTE-NB; M2M device connectivity are included.
  • TCP/IP protocol in communications between entry/exit control and CLOUD cable-theft monitoring platform to ensure security and compatibility.

DEVICE FOR MONITORING RESTRICTED
PARKING SPACES

The main technical characteristics of the device:

  • Power supply: Li-SOCl² 3.6 V. Primary Batteries.
  • Sealing index of the connected IP68 wireless device.
  • Degree of mechanical protection IK10.
  • Magnetic sensor to measure variations in Earth’s magnetic field with 98% accuracy.
  • Automatic calibration of the magnetic sensor.
  • Dual, magnetic, on / off system, does not require opening the device, maintains waterproofness and mechanical switch inside.
  • Frequency of measurements and intervals of data transmission are configurable by the user.
  • Datalogger with extended memory capacity equivalent to one month of measurements.
  • Programmable keep-alive
  • Ultra low consumption in SLEEP mode.
  • The connection of the device is made directly to the CLOUD with intermediate gateways. Using NB-IoT technology, the M2M connectivity of the device is included.
  • The device will operate independently of the CLOUD when a connection can’t be established, the device will continue taking measures and detect alarms, these will be sent as soon as the connection is established again.
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