Federal Highway Administration showcases truck platooning technology

The US Federal Highway Administration (FHWA) has conducted the first of a two-day demonstration of three-truck platoons on I-66 in Virginia. The results of a four-year research project to test the effectiveness of state-of-the-art driving and communications technologies were showcased at the event. Truck platooning uses vehicle-to-vehicle communications technology to allow trucks to follow each other more closely – at about one second apart – and travel in a more coordinated fashion.
September 15, 2017 Read time: 2 mins
The US Federal Highway Administration (FHWA) has conducted the first of a two-day demonstration of three-truck platoons on I-66 in Virginia. The results of a four-year research project to test the effectiveness of state-of-the-art driving and communications technologies were showcased at the event.


Truck platooning uses vehicle-to-vehicle communications technology to allow trucks to follow each other more closely – at about one second apart – and travel in a more coordinated fashion.

While various aspects of truck platooning have been studied for years, FHWA’s Exploratory Advance Research program has taken testing to new levels with the addition of cooperative adaptive cruise control (CACC) technology, which adds vehicle-to-vehicle communications to the adaptive cruise control capability now available in new vehicles. This connectivity allows trucks to operate more smoothly as a unit, reducing and controlling the gaps between vehicles.

The demonstration involved partially automated trucks – which are not driverless, and used professional drivers. The advanced technology that makes platooning possible is meant to supplement, not replace, the nation’s commercial motor vehicle operators.

Urban Traffic Control

Related Content

  • Virginia expands travel information on I-66
    April 4, 2013
    Virginia Department of Transportation (VDOT) is to expand the traffic information system on Interstate 66 (I-66). Motorists will now see travel times displayed on overhead message signs for the 35 miles from Washington to Haymarket. VDOT has been posting the number of miles and minutes to key destinations at three locations between the Capital Beltway and Gainesville since August 2011. Message signs will display the information at seven new locations. In addition, by summer, six more locations will be ad
    Read More
  • Centralised traffic control, managing changing traffic demands
    January 23, 2012
    Paul van Koningsbruggen and Dave Marples of Technolution BV describe, using a national example from the Netherlands, how smart add-ons to traffic control centres combine to increase cross-centre capabilities and cost-efficiency. Increasingly, traffic management is becoming the natural partner of the civil engineer, improving flows over existing infrastructure to deliver an alternative to laying more blacktop. As in any emerging market, the first steps towards mature traffic management have not necessarily r
    Read More
  • Nasa tests drone traffic management system in Nevada and Texas
    February 25, 2019
    US space agency Nasa is moving into the final phase of its four-year programme to prove that it can safely control drones flying over urban centres. Drones, less commonly called unmanned aircraft systems (UAS), are likely to form an increasing proportion of the transportation mix for future cities, but questions remain over their safety – particularly in built-up, heavily populated areas. Nasa will test them in two areas – the gambling hotspot of Reno, Nevada, and the Texan city of Corpus Christi.
    Read More
  • Visible enforcement makes roads safer: study
    June 14, 2022
    US research shows that high visibility is factor in reducing dangerous driving behaviours
    Read More

Highlighted Content