Autonomous vehicle accuracy mapping from TomTom

Pride of place on satellite navigation pioneer TomTom’s stand is very high resolution 3D mapping, initially for Germany, which it says provides the 10cm accuracy necessary for highly automated vehicles. Its mainstream mapping is also high definition meaning the image can be used on any size of screen – as visitors can see.
October 8, 2015 Read time: 2 mins
Matthieu Campion of TomTom with the company's technology

Pride of place on satellite navigation pioneer 1692 TomTom’s stand is very high resolution 3D mapping, initially for Germany, which it says provides the 10cm accuracy necessary for highly automated vehicles. Its mainstream mapping is also high definition meaning the image can be used on any size of screen – as visitors can see.

Also highlighted is the company’s smartphone navigation app – increasingly favoured by occasional users of navigation services while it finds regular users such as delivery drivers are staying with dedicated devices. 
Marketing manager, automotive, Matthieu Campion said his company has many reciprocal agreements with road authorities to both receive and deliver traffic information and is working on algorithms to predict traffic conditions over the coming 15 minutes.  

And with changes happening on 15% of major routes each year, the company is working on speeding the verification and map updating process to a matter of a few days, or potentially hours, rather than weeks or a month as it is currently. “Much depends on where the users’ maps are actually located; in their devices (which are currently updated quarterly) or on our servers which can be readily updated,” says Campion.

There is currently discussions with the vehicle manufacturers about a strategy for high frequency updates and whether to update the area around the vehicle or along the selected route.

Related Content

  • March 21, 2022
    The benefits of Lidar

    While Lidar is gaining ground in the ITS industry, it has not yet reached the level of mass adoption where it shows up frequently in requests for proposals (RFPs) from cities and DoTs.

    Read More
  • July 7, 2017
    Bristol’s buses trial CycleEye detection system
    Fusion Processing’s Jim Hutchinson looks at a two-year trial of the company’s cyclist detection system. Is cycling in a city dangerous? Well, that depends where you are and how you view statistics. Malmö is far more bike-friendly than Mumbai and the risk can either be perceived as small - one death per 29 million miles cycled in the UK in 2013 - or large - that equated to 109 deaths in the same year. Whatever your personal take on the data, the effect of these accidents can be felt indirectly too. News of c
    Read More
  • November 15, 2017
    Dutch strike public/private balance to introduce C-ITS services
    Connected-ITS applications are due to appear on a nation-wide scale this summer, through the Netherlands’ Talking Traffic Partnership – if all goes to plan. Jon Masters reports. The Netherlands’ Talking Traffic Partnership (TTP) looks almost too good to be true: an artificial market set up and supported by national, regional and local government to accelerate deployment of Connected ITS (C-ITS) applications. If it does have any serious flaws, these are going to become apparent quite soon, because the first
    Read More
  • August 19, 2015
    Near-fit technology can provide the solution - just ask the question.
    When a company launches a product it never quite knows how that product will be used and what else it may be required to do. Lufft’s mobile weather sensor MARWIS is a prime example. Last winter Lufft introduced MARWIS, its mobile road weather sensor, handing it initially to long-term sales partners to test and improve. What was known was the sensor’s fast reaction rate (up to 100 Hertz), combined with its wide range of measurement information, and would provide users with a gapless overview of the road stat
    Read More

Highlighted Content