Michael Baker International to implement US smart mobility corridor

Michael Baker International will provide technical management for the implementation of connected vehicle technologies along a 35-mile stretch of the US Route 33 near Columbus, Ohio. The project aims to make roads safer, less congested and equipped for real-life testing of connected and autonomous vehicles and is scheduled for completion in January 2020. NW 33 Innovation Corridor Council of Governments (NW33) chose the provider of engineering solutions in a $1m (£710,200) contract that runs between the
April 5, 2018 Read time: 2 mins

Michael Baker International will provide technical management for the implementation of connected vehicle technologies along a 35-mile stretch of the US Route 33 near Columbus, Ohio. The project aims to make roads safer, less congested and equipped for real-life testing of connected and autonomous vehicles and is scheduled for completion in January 2020.

NW 33 Innovation Corridor Council of Governments (NW33) chose the provider of engineering solutions in a $1m (£710,200) contract that runs between the City of Dublin and the City of Marysville.

Through the agreement, Michael Baker International and subconsultant, Alten-Cresttek, will assist project sponsors and partners in using insights gained from the project to improve safety and create opportunities for economic development throughout the corridor. Members include the cities of Dublin and Maryville, Union County, Ohio Department of Transportation, DriveOhio, Honda, Battelle, TRC and the Ohio State University College of Engineering.

This scheme is part of a wider $15m (£10m) initiative which includes a $6m (£4.2m) US Department of Transportation grant awarded to NW33 in 2016.

The 33 Smart Mobility Corridor connects the Transportation Research Centre and the Ohio State University’s Centre for Automotive Research. In addition, it provides a link to smart mobility initiatives taking place at the Smart Columbus project.

Urban Traffic Control

Related Content

  • Columbus wins US Smart City Challenge
    June 24, 2016
    Columbus, Ohio has been selected as the winner of the US Department of Transportation's (US DOT) Smart City Challenge. As winner of the Challenge, Columbus will receive up to US$40 million from US DOT and up to US$10 million from Vulcan to supplement the US$90 million that the city has already raised from other private partners to carry out its plan. The Smart City Challenge generated a significant amount of excitement and interest amongst cities. US DOT received seventy-eight applications in total – on
    Read More
  • Phoenix rises to the Smart City challenge
    December 10, 2015
    Andrew Bardin Williams looks at the City of Phoenix where voters backed a $30bn plan to revamp its transportation network to cultivate a more connected community. According to a Land Use Institute study, half of all Americans and even more millennials (63%) would like to live in a place where they do not need to use a car very often. The City of Phoenix is putting in place plans to revamp its urban development and transportation policies to meet these changing quality of life perceptions.
    Read More
  • EU releases funds to improve European transport connections
    September 12, 2014
    The European Commission has released US$15.3 billion of EU funding to improve European transport connections and invited Member States to propose suitable projects to use the funding. Proposals must be submitted by 26 February 2015. EU financing for transport has tripled to US$33.6 billion for the period 2014-2020, compared to US$10.3 billion for 2007-2013, under the new Connecting Europe Facility (CEF). This is the first tranche of the new funding for transport to be made available. The funding will
    Read More
  • Michael Baker International adds to UAS inspection fleet
    November 18, 2016
    US-based engineering and planning consulting service Michael Baker International has expanded its inspection services with the purchase of a Topcon Falcon 8 unmanned aircraft system (UAS), offering a new perspective for its pilots to achieve precise aerial imagery and mapping during the inspection of infrastructure elements. Combined with the company’s mobile and static Light Detection and Ranging (LiDAR) systems for data collection and by utilising the system’s flight stability and high-resolution 32-me
    Read More

Highlighted Content