Home Artificial Intelligence How Does Artificial Intelligence Improve Mapmaking? | TomTom Blog

How Does Artificial Intelligence Improve Mapmaking? | TomTom Blog

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Using generative adversarial networks to make better maps
To do this, we literally set one AI system up against the other to create images that are real or fake. It’s a grand game of Call My Bluff, where the AI system has to decide whether the image is genuine. By playing and replaying the process, the algorithm rapidly improves until it can automatically create believable images that were never actually photographed in the first place.
These systems are known as generative adversarial networks (GAN). At TomTom, we started using this technique to create all-weather imagery of all the roads, so we know how to turn sun into showers and day into night. We are creating all weather images for 400,000 km of roads across the world.
But while AI provides an elegant solution to the enormous challenges of mapping the world’s roads in every conceivable condition, we still need to keep the actual images of the road and the physical environment up to date.
Nowadays, devices also have to take into account real-time information about the traffic situation, weather or detours. Modern navigation systems can constantly readjust the route if the traffic situation changes or a traffic jam blocks a major road. Machine learning techniques can anticipate what a traffic jam can do to anticipated journey times, for example.
For future generations of vehicles, navigation will become even more complex. Guidance systems will have to take into account whether the battery charge on an electric vehicle is sufficient to reach the intended destination.
Learning algorithms can also adapt to a driver’s style behind the wheel and get better at understanding it with every journey. A more aggressive style of driving can shorten the range of a journey by up to a third, for example.
Of course, this needs a huge amount of computing power, but we are partnering with Microsoft and utilising the cloud to ensure we capture large amounts of data that can be used in real-time driving conditions.
The wisdom of crowds in creating high-quality maps
It’s almost impossible to map every square inch of the globe manually. Besides, as soon as it is done, then it needs to be redone. Nothing stands still. Road layouts change, new buildings are erected and even the topography can change.
For that reason, we turn to crowdsourcing to ask the general population to keep us updated on any changes. People can use our TomTom apps to send pictures of where reality doesn’t match what we have recorded on our maps, alerting us to send someone out to check and accurately record it.
This is much more effective than ad-funded maps. How can we trust these service providers will always send us the quickest route or if they’ll send us on a detour past one of their advertiser’s drive-thru restaurants?
Paid-for, ad-free mapping providers have the advantage of trust. People know that if they take images of the road and send them to a company that doesn’t advertise, they will be actively taking part in a community that helps everyone – much like Wikipedia.
But we don’t just rely on the community – the team at TomTom also crawl the web on a daily basis to find announcements about changes to the road infrastructure, new building developments etc. It’s the key to how we detect changes and improve maps by using multiple trusted sources.
Keeping data secure
Because of the amount of data we handle, we also have to be very aware of security issues too. One of the biggest challenges with AI is keeping data secure.
We ensure we can anonymize data, so individuals can’t be identified on their location or journeys. It helps prevent knowing when somebody is away from their premises, for example.
AI algorithms can still learn from anonymized data. Once trained, the models can be shared and we can continue to train and enhance the full pool of shared models with new ones. It means the continuous virtual circle of uninterrupted learning continue.
It helps to secure our vision for a safe, connected, autonomous world, free of congestion and emissions. Our mission is to create the most powerful technologies to help shape and solve tomorrow’s mobility issues – and AI is a powerful tool to help us along that path.

This content was originally published here.