Next phase in Dutch Shockwave traffic jam service: mobility services

Beginning this week, road users on the A58 motorway between Eindhoven and Tilburg in the Netherlands can test the rapid data infrastructure for their Shockwave traffic jam service. Thirty-four wi-fi beacons on the motorway ensure that the FlowPatrol and ZOOF apps transmit traffic warnings before the driver reaches the congestion. At the moment, the infrastructure is only being used by the Shockwave traffic jam services provided by FlowPatrol and ZOOF, but drivers on the A58 can expand their service to parti
April 27, 2016 Read time: 2 mins

Beginning this week, road users on the A58 motorway between Eindhoven and Tilburg in the Netherlands can test the rapid data infrastructure for their Shockwave traffic jam service. Thirty-four wi-fi beacons on the motorway ensure that the FlowPatrol and ZOOF apps transmit traffic warnings before the driver reaches the congestion.

At the moment, the infrastructure is only being used by the Shockwave traffic jam services provided by FlowPatrol and ZOOF, but drivers on the A58 can expand their service to participate in the test. This requires a Talking Traffic kit to be installed in the vehicle, connected to the driver’s smart phone to facilitate rapid communication with the wi-fi beacons, providing the driver with real-time, personalised travel advice.

The Shockwave project partners believe their development could provide the building blocks for new in-vehicle mobility services in the vehicle, such as a warning system for roadworks, weather conditions or approaching emergency services, or a system that communicates with traffic lights to inform drivers of the time to green, or that can assign priority to certain traffic flows. The developments have been based on international standards and the project partners say that new services can be easily can be easily implemented.

Networking & Communication Systems Location Based Systems

Related Content

  • Jaguar Land Rover to begin real-world tests of CAV technologies
    July 18, 2016
    Jaguar Land Rover plans to create a fleet of more than 100 research vehicles over the next four years, to develop and test a wide range of connected and autonomous vehicle (CAV) technologies. The first of these research cars will be driven on a new 41 mile test route on UK motorways and urban roads around Coventry and Solihull later this year. The initial tests will involve vehicle-to-vehicle and vehicle-to-infrastructure communications technologies that will allow cars to talk to each other and roadsid
    Read More
  • Auckland reduces airport journey times
    April 16, 2018
    Getting from the centre of Auckland to the city’s airport used to be fraught with unwanted stress for passengers – but a new system combining radar, Bluetooth and Wi-Fi is smoothing things over. Andrew Stone investigates. Struggling to cope with steady growth in passenger numbers and the costly traffic congestion which that can entail, New Zealand’s Auckland International Airport has deployed an innovative system that is smoothing traffic and passenger flows. The same system is also offering new, data-led
    Read More
  • Why integrated traffic management needs a cohesive approach
    April 10, 2012
    Traffic control is increasingly being viewed as one essential element of a wider ‘system of systems’ – the smart city. Jason Barnes, Jon Masters and David Crawford report on latest ideas and efforts for making cities ‘smarter’ Virtually every element of the fabric and utilitarian operations that make urban areas tick can now be found somewhere in the mix that is the ‘smart city’ agenda. Ideas have expanded and projects pursued in different directions as the rhetoric on making cities ‘smarter’ has grown. App
    Read More
  • Cooperative infrastructure systems waiting for the go ahead
    February 3, 2012
    Despite much research and technological promise, progress towards cooperative infrastructure system deployment is still slow. Here, Robert Cone and John Miles take a considered look at how and when it might come about. From a systems engineering viewpoint it looks logical and inevitable that vehicles should be communicating between themselves and with the road infrastructure. But seen from a business viewpoint the case is not proven.
    Read More

Highlighted Content