DriveOhio to monitor traffic and road incidents with drones

DriveOhio will use unmanned aircraft systems (UAS) to understand how to manage traffic, roadway incidents and roadway conditions along the 33 Smart Mobility Corridor from 1 July. The three-year project, valued $5.9m, is intended to complement autonomous and connected vehicle tests along the 35-mile stretch between Dublin and East Liberty.
June 8, 2018 Read time: 2 mins
DriveOhio will use unmanned aircraft systems (UAS) to understand how to manage traffic, roadway incidents and roadway conditions along the 33 Smart Mobility Corridor from 1 July. The three-year project, valued $5.9m, is intended to complement autonomous and connected vehicle tests along the 35-mile stretch between Dublin and East Liberty.


This study stems from a partnership between DriveOhio’s UAS Center and the Ohio State University College of Engineering.

The research will be carried out by air and ground vehicles while the drones will monitor traffic and incident response along with the state's fixed-location traffic camera system. The UAS will interact with sensors and communication equipment to feed data into the state’s traffic management centre.

Additionally, the initiative will use sensors and communication devices to ensure unmanned aircraft will not collide with each other or with small planes and helicopters.

Fred Judson, director of DriveOhio’s UAS Center, says: “This research project will make the development of that safety system a priority so that other aircraft operations such as package delivery and air taxi services can be explored down the road.”

Other members involved in the project include Cal Analytics, Gannett Fleming, Airxos, Gryphon Sensors, Transportation Research Center, Woolpert, the Ohio State University Airport and Midwest Air Traffic Control.

Urban Traffic Control

Related Content

  • Measuring alertness to avert drowsy driver incidents
    December 21, 2015
    Falling asleep at the wheel is the primary cause in thousands of deaths on American and other roads, with truck drivers the most at-risk group. David Crawford investigates measures to counter drowsy driving.
    Read More
  • Hard shoulder running aids uniform traffic flow and safer driving
    January 23, 2012
    David Crawford detects a market for European experience. Well-established now in at least three European countries, Hard Shoulder Running (HSR) on motorways is exciting growing interest in the US. A November 2010 Report to Congress by the Federal Highway Administration (FHWA), on the Efficient Use of Highway Capacity, notes the role of HSR in the European-style Active Traffic Management (ATM) strategies now being recommended for implementation in the US where, until recently, they were virtually unknown.
    Read More
  • Alan Turing Institute and Toyota to modernise traffic management
    June 11, 2018
    The UK’s Alan Turing Institute and the Toyota Mobility Foundation are partnering in an 18-month project which they say is intended to modernise traffic management. They will collaborate with data providers and government managers to look at the way cities could run in future. Potential outcomes include the integration of an artificial intelligence (AI) system for traffic control, a platform for interactive data manipulation to monitor traffic behaviour and developing mechanisms for fleet operators and ci
    Read More
  • Doha implements traffic control system
    November 21, 2012
    Expansion of ITS systems has accelerated in Qatar this year, with rapid deployment of a traffic control system in Doha. Less than 10 years from now an extensive system of ITS technology will be operating in Qatar, informing and directing users of the country’s roads. That can be stated with confidence for a number of reasons: the world’s richest country per capita will host the World Cup in 2022 and is understood to be planning to develop sophisticated systems of ITS for road safety and traffic managemen
    Read More

Highlighted Content