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

  • Co-operative infrastructure reduces congestion, increases safety
    January 30, 2012
    ITS Japan's Chairman Hiroyuki Watanabe talks to ITS International about his country's progress with cooperative infrastructures and how the experience gained to date can benefit similar initiatives elsewhere. Japan gave the rest of the world a taste of the cooperative infrastructure future when, in 1996, it went live with the Vehicle Information and Communication System (VICS). Designed to provide real-time traffic information and alerts to in-vehicle navigation systems with the dual aims of increasing safe
    Read More
  • USDoT responds to death crash 'crisis' on roads 
    November 4, 2021
    'First-ever' national safety-first roadway strategy comes as 20,160 die in first half of 2021
    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
  • Plug-and-play anti-collision technologies for everyone
    March 6, 2014
    With an eye on the autonomous vehicle market, Soterea, a new high-tech firm in New Jersey, US, is developing plug-and-play anti-collision technologies that can make new and used vehicles safer, thereby helping to further evolve the critical element necessary to make driverless vehicles commercially viable. Soterea is the brainchild of two transportation technology experts, Eva Lerner-Lam and Alain L Kornhauser, each with more than four decades of experience in developing next generation technologies for
    Read More

Highlighted Content