VTT’s robot car parks autonomously

VTT Technical Research Centre of Finland’s robot car Marilyn is parking autonomously - 100m away from its driver. The trial in Tampere uses the Internet of Things (IoT) and is expected to allow vehicles to park closer together without fear of collisions at airports and shopping centres. Johan Scholliers, project manager at VTT, says the technology will also help reduce congestion in parking areas.
June 25, 2018 Read time: 2 mins
814 VTT Technical Research Centre of Finland’s robot car Marilyn is parking autonomously - 100m away from its driver. The trial in Tampere uses the Internet of Things (IoT) and is expected to allow vehicles to park closer together without fear of collisions at airports and shopping centres.


Johan Scholliers, project manager at VTT, says the technology will also help reduce congestion in parking areas.

Marilyn utilises 7643 Here Technologies’ ultra-wideband (UWB)-based technology which allows it to be positioned indoors without satellite assistance. UWB is a radio technology that transmits data in short and low-power pulses over a wide frequency band.

The driver parks the car through an app that reserves a parking space. A parking guidance system confirms whether the space is free and detects potential problems using traffic cameras connected to an open IoT platform – which in turn transmits route information to the vehicle.

VTT’s trial is part of the Autopilot project’s investigation of the potential for IoT-automated driving. The initiative is funded by the European Commission and is also operational in Italy, the Netherlands, France, Spain and South Korea.

Parking & Access Control

For more information on companies in this article

Related Content

  • Get connected at ITS European Congress in Lisbon
    February 20, 2020
    The way connectivity is transforming how we plan and deliver mobility will be discussed in detail at this year’s ITS European Congress in Lisbon from 18-20 May.
    Read More
  • Wireless traffic data in real time
    January 31, 2012
    The effect of moving objects on the electromagnetic landscape set up by cellular telephony networks can be detected and interpreted to give real-time traffic data across large geographical areas at low cost. Here, we revisit the Celldar concept. Global economic downturn has pushed public-sector agencies, transport administrations among them, to push even harder for cost efficiencies. Unfortunately, when it comes to transport safety and efficiency the public sector often has to work up to a cost rather than
    Read More
  • Trials show fuel savings with connected vehicle technology
    December 16, 2015
    American and European trials point to fuel and emissions reductions. A trial by University of California-Riverside (UC-Riverside) has shown connected vehicle technology has the potential to reduce fuel consumption (and therefore emissions) by up to 18% compared with an uninformed driver.
    Read More
  • Heavy vehicles to collect slipperiness data for Finland’s road users
    January 24, 2018
    EEE Innovations Oy (EEE), the Finnish Transport Agency and Trafi have launched a two-year project in the Northern European state to equip 1000 heavy traffic vehicles including buses and trucks with a data collecting system which will produce real-time road slipperiness data. The trial aims to improve traffic safety for road users, drivers and operators. This application, developed by EEE, can be implemented via a software update which reads the data from the Can-bus of the vehicle’s computer. The driver
    Read More

Highlighted Content