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

  • Include ITS in policy decisions from the start, not as an afterthought
    February 1, 2012
    DG TREN's Fotis Karamitsos, on why the European Commission's new ITS Action Plan is looking to the past for future direction. The European Commission's (EC's) new Action Plan for the Deployment of Intelligent Transport Systems in Europe, which was announced as 2008 drew to a close, intends that transport and travel become 'cleaner; more efficient, including energy efficient; and safer and more secure'. At first sight, that wording might be interpreted as marking a significant policy shift within Europe, wit
    Read More
  • Vehicular networking architecture for local road weather services
    August 19, 2015
    The Finnish Meteorological Institute is currently testing two-way delivery of local weather data as Timo Sukuvaara explains. Road weather information is one of the key ways in which ITS can help reduce traffic accidents and fatalities – which is why the Finnish Meteorological Institute (FMI) has long provided road weather services. Now, the CoMoSeF (Cooperative Mobility Services of the Future) project has been developing communication methodologies to deliver road weather services directly to vehicles and g
    Read More
  • Trials show fuel savings with connected vehicle technology
    December 16, 2015
    American and European trials point to fuel and emissions reductions. A trial by University of California-Riverside (UC-Riverside) has shown connected vehicle technology has the potential to reduce fuel consumption (and therefore emissions) by up to 18% compared with an uninformed driver.
    Read More
  • Copenhagen to showcase ITS in action at ITSWC 2018
    December 18, 2017
    As delegates head for the 2017 ITS World Congress in Montreal, we talk to Copenhagen mayor Morten Kabell about why his city is the ideal location for next year’s event. It may have been a long time coming but the ITS World Congress will be in Copenhagen in 2018 and there can be few more fitting places to host the event. By any number of metrics - interconnected transport, cycle commuting, safer streets, reduced pollution, sustainable energy and quality of life - the Danish capital has implemented what m
    Read More

Highlighted Content