HEAT trials autonomous shuttle in regular traffic in Hamburg

The HEAT (Hamburg Electric Autonomous Transportation) project is integrating an autonomous shuttle bus into regular traffic in the German city. The electric bus will be available to riders travelling in HafenCity, a district within the borough of Hamburg-Mitte, from mid-2020. Developed by IAV, the minibus should be able to reach speeds of 50km/h while travelling along the 1.8km route. A digital communications system and sensors have been installed along the route to keep the vehicle in communication
August 13, 2019 Read time: 2 mins

The HEAT (Hamburg Electric Autonomous Transportation) project is integrating an autonomous shuttle bus into regular traffic in the German city.

The electric bus will be available to riders travelling in HafenCity, a district within the borough of Hamburg-Mitte, from mid-2020.

Developed by IAV, the minibus should be able to reach speeds of 50km/h while travelling along the 1.8km route. A digital communications system and sensors have been installed along the route to keep the vehicle in communication with its surroundings and the Hamburger Hochbahn control centre.

Hamburger Hochbahn - a public transport operator - will continually monitor the progress of the bus and will be able to make driving commands depending on the traffic situation.

Initially, the bus will run along a defined route without passengers and accompanied by a vehicle attendant who can take control if necessary.

The bus can carry up to ten people. It has two benches with four seats each and a foldable bench with two more seats.

Other partners involved in the project include 120 Siemens Mobility, the Institute for Climate Protection, Energy and Mobility and the 2206 German Aerospace Center.

For more information on companies in this article

Related Content

  • Development of cooperative driving applications for work zones
    July 17, 2012
    The German AKTIV project is researching several cooperative driving applications for use in work zones. PTV's Michael Ortgiese details progress. The steep increases in traffic volumes predicted back in the early 1990s have unfortunately been proven to be more than accurate. In Germany, the AKTIV project continues to look into cooperative technologies' potential to reduce the impact of those increased traffic volumes and keep traffic moving despite limitations in infrastructure capacity.
    Read More
  • Less travel aggravation to blunt Aggieland fans’ motivation
    June 17, 2016
    Returning travel times to normal within two hours of the end of a major football game was the challenge facing College Station, Adam Lyons explains how this was achieved. College Station, TX, also known as ‘Aggieland’, is located right in the middle of the Dallas/Fort Worth, San Antonio and Houston triangle making the city accessible to over 14 million Texans within less than a four-hour drive. One of the biggest draws to this area is Texas A&M University (TAMU) and the Aggie football games in the fall, mea
    Read More
  • EasyMile resorts to AVs in Belgium
    October 14, 2022
    Company will provide unmanned shuttle service at Terhills complex in Flanders
    Read More
  • Affordable and versatile traffic data
    January 20, 2012
    Houston TranStar, which has been collecting travel time and segment speed data using vehicle probe data since 1995, has an extensive coverage area that envelops most local commuters' daily freeway routes. However, expanding the existing Automated Vehicle Identification (AVI) system would be cost-prohibitive except for high-volume freeways. The partners of the Houston TranStar consortium needed a new method to measure speeds and travel times on arterial roadway systems and rural freeways. Instead of using co
    Read More

Highlighted Content