Canada partners with University to support Auto Innovation

Canada has joined forces with the University of Ontario Institute of Technology (UOIT) to upgrade its Automotive Centre of Excellence (ACE) with the intention of assisting companies and researchers in their efforts to reduce carbon emissions in the automotive industry. Under the agreement, ACE will add a Moving Ground Plane – a belt that serves as a road moving under a vehicle, simulating the aerodynamic forces against moving vehicles and measuring the physical characteristics in real-world conditions.
February 16, 2018 Read time: 2 mins

Canada has joined forces with the University of Ontario Institute of Technology (UOIT) to upgrade its Automotive Centre of Excellence (ACE) with the intention of assisting companies and researchers in their efforts to reduce carbon emissions in the automotive industry.

Under the agreement, ACE will add a Moving Ground Plane – a belt that serves as a road moving under a vehicle, simulating the aerodynamic forces against moving vehicles and measuring the physical characteristics in real-world conditions.

The announcement was made by Steven Del Duca, Ontario minister of economic development and growth and Granville Anderson, MMP for Durham in Oshawa.

Duca said: “Ontario is pleased to continue its support for UOIT’s Automotive Centre of Excellence – the innovations happening here every day are truly ground-breaking. Partnerships like this are essential to helping our province continue to lead the way in developing and commercializing transformative vehicle technologies. It will help keep Ontario’s auto sector at the cutting-edge of product innovation and competitiveness.”

Dave Pascoe, vice president of engineering and research and development, Magna International, said: “Access to sophisticated engineering tools like this wind tunnel will enable companies like Magna to develop better passive and active aerodynamic products which reduce automobile fuel use and CO2 [carbon dioxide] emissions into the environment.”

Urban Traffic Control Air Quality & Weather Systems

Related Content

  • Connected and self-driving cars ‘poised for growth’
    April 13, 2015
    Autonomous vehicles will enter mass production by 2020 as more and more major auto makers in recent years have committed to their R&D, according to Topology, a division of TrendForce. Furthermore, the scale of the market will likely surpass a million vehicle mark by 2035. Eric Chang, analyst for Topology, stated the future development of autonomous vehicles will depend on the following technologies: sensors for reading biological data inside vehicle and environmental data outside; communication technology;
    Read More
  • Singapore plans changes to transit system
    June 13, 2018
    Singapore has the third-highest population density in the world and the numbers are continuing to grow. The government knows that transit is vital: David Crawford investigates the city state’s Smart Nation strategy. Transport is the most important of the five domains identified as the pillars of Singapore's far-reaching Smart Nation strategy, launched in November 2014 by prime minister Lee Hsien Loong with the aim of reaching fulfilment by 2024. Roads account for 12% of the island republic's 719km2 land ar
    Read More
  • Harman and Groupe PSA partner on cybersecurity for C/AVs
    March 12, 2018
    Groupe PSA has announced a partnership with Harman International at the Geneva International Motorshow to develop a cyber security strategy that aims to protect its next-generation connected and autonomous vehicles. Both companies have collaborated over two years on projects such as analysing potential threats and security design. They have also conducted a feasibility study of advanced intrusion detection systems for advanced driver assistance systems (ADAS), autonomous and next-generation vehicle
    Read More
  • LowCVP study identifies cost-effective options for cutting UK bus emissions
    July 4, 2013
    A new report prepared for the Low Carbon Vehicle Partnership (LowCVP) by Ricardo indicates that a wide range of innovative technologies can cut carbon emissions from buses and provide a short-term payback at current fuel prices and subsidy levels. The aim of the LowCVP study was to identify a range of low carbon fuels and technologies which can cost-effectively reduce well-to-wheel CO2 emissions for urban buses in the UK. The report developed technology roadmaps to illustrate when these technologies are lik
    Read More

Highlighted Content