Aimsun enters partnership to develop tool for managing mixed-autonomy traffic

Aimsun has partnered with UC Berkeley’s Institute of Transportation Studies to develop Flow, a tool for managing large-scale traffic systems where human-driven and autonomous vehicles (AVs) operate together. Flow offers a suite of pre-built traffic scenarios and is now integrated with Aimsun Next mobility modelling software. The open source architecture knits together microsimulation tools with deep reinforcement learning libraries in the cloud. Launched last September, Flow allows users to build and
January 15, 2019 Read time: 2 mins

16 Aimsun has partnered with UC Berkeley’s Institute of Transportation Studies to develop Flow, a tool for managing large-scale traffic systems where human-driven and autonomous vehicles (AVs) operate together.

Flow offers a suite of pre-built traffic scenarios and is now integrated with Aimsun Next mobility modelling software. The open source architecture knits together microsimulation tools with deep reinforcement learning libraries in the cloud.

Launched last September, Flow allows users to build and combine modular traffic scenarios to tackle complex situations, the company says. For example, single-lane/multi-lane and merge building blocks can be used to study stop-and-go merging traffic behaviours along a highway.  

“In mixed-autonomy traffic control, evaluating machine learning methods is challenging due to the lack of standardised benchmarks,” says Alexandre Bayen, director, 8895 ITS Berkeley. “Systematic evaluation and comparison will not only further our understanding of the strengths of existing algorithms but also reveal their limitations and suggest directions for future research.”

Urban Traffic Control

For more information on companies in this article

Related Content

  • Section speed enforcements gains global converts
    October 26, 2017
    As the benefits of section speed enforcement are becoming clearer, the technology is gaining converts worldwide. Colin Sowman reports. America’s National Transportation Safety Board (NTSB) is calling for urgent action from both road authorities and the federal government to combat speeding which has been identified as one of the most common factors in motor vehicle crashes in the United States. This new call follows the publication of a safety study which found that between 2005 through 2014, 31% of all
    Read More
  • Taking it to the streets
    November 30, 2012
    The University of Michigan Transportation Research Institute (UMTRI) and US Department of Transportation (USDOT) have launched the Connected Vehicle Safety Pilot Model Deployment in Ann Arbor, Michigan. The largest connected vehicle test undertaken, and a critical next step in the development of vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication. The pilot, a $22 million partnership between UMTRI and USDOT, is part of a joint research initiative led by the National Highway Traffic
    Read More
  • Options abound for road weather sensing
    September 6, 2017
    Meteorological organisations invest millions in super-computers to crunch data for ever-more accurate forecasts but inherent unpredictability means that other methods of alerting drivers and road authorities to fast-changing weather and highway conditions are essential. For years, static weather sensors to measure factors such as surface water, ice or high roadway temperatures have been embedded in highways to provide such data. But that is changing.
    Read More
  • Autoliv joins OSCCAR future automotive safety project
    July 24, 2018
    Automotive safety systems company Autoliv has joined safety initiative OSCCAR, part of the European Union’s Horizon 2020 research project. OSCCAR (Occupant Safety for Crashes in Cars) also includes partners such as Toyota, Siemens and various academic institutions. Autoliv says it will help develop harmonised methods and tools for vehicle restraint systems which could feature in automated vehicles. Cecilia Sunnevång, vice president, research at Autoliv, says the project will provide information on
    Read More

Highlighted Content