Continental and Oxford University jointly researching artificial intelligence

International technology company Continental and the Department of Engineering Science at the University of Oxford are now conducting joint research in the field of artificial intelligence in a partnership which will focus on the possible uses and development of artificial intelligence algorithms, which have the potential to further enhance future mobility applications. These deep-learning algorithms have the potential to deliver future visual object detection and human–machine dialogue.
November 11, 2016 Read time: 2 mins

International technology company 260 Continental and the Department of Engineering Science at the University of Oxford are now conducting joint research in the field of artificial intelligence in a partnership which will focus on the possible uses and development of artificial intelligence algorithms, which have the potential to further enhance future mobility applications. These deep-learning algorithms have the potential to deliver future visual object detection and human–machine dialogue.

Continental expects the partnership to yield findings on the use of artificial intelligence methods, including in the areas of automated and autonomous driving, the improvement of future vehicle access systems, accident minimisation through intelligent warning systems, and the sensitive dialogue that will take place in the future between drivers and vehicles – between humans and their machines.

The first phase of the proposed three-year partnership began in early November 2016 and includes new postdoctoral research positions at Oxford. There are plans to extend the research scope and the time frame at a later date.

Location Based Systems

Related Content

  • March 28, 2018
    US DOTs introduce measures to stop wrong-way driving
    Wrong-way driving (WWD) is a remarkably innocuous term for incidents that all too often cause some of the worst accidents that emergency services have to deal with. Several US states are now taking steps to minimise the problem, as Alan Dron finds out. You’re driving down a highway at night when you see approaching headlights. You initially assume they are merely those of an oncoming car on the opposite carriageway. It’s only when they are within 200 yards or so that you realise that the other driver is in
    Read More
  • December 14, 2012
    Car to car communications a step closer
    Vehicle manufacturers have targeted 2015 for the first cars to roll off European assembly lines fitted with operational V2X technology. They and their partners in the Car 2 Car Communications Consortium are confident of meeting the target, reports Jon Masters. Around three years from now vehicles should be appearing in showrooms boasting the capability of communicating with each other. Manufacturers will have started fitting the first proprietary car-to-car driver-aid safety devices and deployment of ‘vehic
    Read More
  • April 18, 2013
    Drivers get eyes in the back of their heads
    Drivers of the new Nissan Note will be able to see a full 360-degrees, compared to the average human’s field of vision of around 120 degrees, thanks to Nissan's advanced engineering and sophisticated technologies. The new model, unveiled at last month's Geneva Motor Show, is the first Nissan to feature its advanced safety shield - a package of technologies that delivers a new level of driver assistance in the small car segment - along with the advanced around view monitor.
    Read More
  • July 16, 2012
    Semi-autonomous hybrid vehicle trials show fuel, emission savings
    The Transport Research Laboratory has unveiled an innovative semi-autonomous vehicle prototype. It offers improves in environmental performance and safety but also displays some shortcomings. Mike Woof reports. The UK's Transport Research Laboratory (TRL) has been working on an innovative project to develop a prototype vehicle intended to reduce fuel consumption. Based on a Ford Escape hybrid model, TRL's Sentience vehicle uses a combination of mobile communications and mapping technologies to reduce fuel c
    Read More

Highlighted Content