New driving aid helps keep your car on the road
Posted by Åse Dragland
An extra driver behind the wheel
A new driving aid vibrates your steering wheel if your car is too close to the edge of the road. WayPilot, developed by Norwegian researchers, helps keep your car where it should be in the driving lane.
The automotive industry has long been keen on developing driver support technology, and several general-purpose systems are on the market, either as add-ons or installed in new cars. Examples of such systems include driving lane aids that warn the driver if his vehicle leaves the lane without the blinker being activated – as can happen when the driver nods off. Safety equipment of this sort has reduced both collisions and cases of driving off the road.
“What many of these systems have in common is that they use video cameras to orient themselves with respect to the road,” says SINTEF research manager Terje Moen.
“The disadvantage of such systems is that during the winter, snow and dirt can cover road markings, leaving them fairly useless. Worn or non-existent marking also put video-based systems out of action. This Norwegian product deals with the problem in a unique way.”
Tested in vehicle simulator
In 2004, the Arendal company WayPilot started to develop systems for driving lane support and for warning drivers when their vehicle was unintentionally leaving the lane of travel. SINTEF joined the project two years later, using its vehicle simulator to evaluate how WayPilot interacts with the driver.
The safety package is comprised of antennae installed in the base of the car’s door openings, and RFID transponders, which are a type of radio transceiver moulded into robust plastic casings that are buried under the top asphalt layer on the road.
“As part of a project, and with the Norwegian Public Roads Administration, WayPilot and Innovation Norway, SINTEF tested WayPilot on a group of 20 subjects, using the SINTEF/NTNU driving simulator,” Moen explained. “The main objective of the test series was to identify the best method of warning the driver, but we also looked at the robustness of the technology involved, as well as the market potential of the product.”
The original idea was that a smart phone would sound a warning that the vehicle was about to leave its lane, but in the simulator trials, other methods such as vibration of the driver’s seat or the steering wheel were also tested.
“The subjects found that a vibration warning system was better than a mobile warning, and they ranked steering wheel vibration ahead of vibration of the seat,” says Moen.
The Public Roads Administration has installed RFID transponders on the stretch of test road between Melhus and Sandmoen near Trondheim. Now, they need to evaluate the need for larger-scale installations on Norwegian highways.
“What is interesting about this product is that it can be developed to compete with highway dividers. If it is linked to the steering wheel, a sort of electronic barricade that actually simulates a divider can be built into the highway, and the system can be retrofitted to existing vehicles,” says Moen.
Åse Dragland is the editor of GEMINI magazine, and has been a science journalist for 20 years. She was educated at the University in Tromsø and Trondheim, where she studied Nordic literature, pedagocics and social science.