Jaguar Land Rover, Intel and Seeing Machines are working together to develop sensing technology that monitors the driver’s face and eyes to reduce distracted and drowsy driving. The technology is called ‘Driver Monitor System’ and was demonstrated at the 2015 Consumer Electronics Show by Seeing Machines in a Jaguar F-Type on the Intel stand.
For detecting eye and facial movements in order to identify whether the driver is attentive or not, the DMS uses attention-monitoring sensors. The DMS can identify driver’s attentiveness even in bright sunlight and even if the driver is wearing glasses or sunglasses. The latest Intel Core i7 chip delivers the processing power required by the DMS system.
More information is available in the press release below.
JAGUAR LAND ROVER, INTEL AND SEEING MACHINES SHOWCASE INNOVATIVE DRIVER ATTENTION-MONITORING SYSTEM AT CES – Press Release
- Seeing Machines demonstrates its cutting-edge Driver Monitor System (DMS) in a Jaguar F-Type prototype on the Intel stand
- The system tracks the driver’s eyes and alerts the driver when they aren’t looking at the road even if they are wearing sunglasses
- DMS could be used to alert the driver to hazards earlier, or even enhance the settings of on-board safety systems, to reflect the driver’s lack of attention
LAS VEGAS – Jaguar Land Rover is working with Intel and Seeing Machines to develop sensing technology that monitors the driver’s face and eyes to reduce distracted and drowsy driving.
Seeing Machines is a world leader in the development of computer vision related technologies that help machines understand people by tracking and interpreting human faces and eyes.
At the International Consumer Electronics Show in Las Vegas this week, Seeing Machines is demonstrating its Driver Monitor System (DMS) in a Jaguar F-Type prototype developed jointly with Intel at Jaguar Land Rover’s new R&D facility in Portland, Oregon.
DMS uses attention-monitoring sensors in the dashboard to detect eye and facial movements so it can identify if the driver has become inattentive, either due to drowsiness or distraction. It is so sophisticated it can understand the state of the driver in real world conditions, including bright sunlight and if the driver is wearing glasses or sunglasses.
Nick Langdale-Smith, Vice President, Seeing Machines, said: “The algorithm we have developed for DMS has the potential to seamlessly enable a host of safety and autonomous driving features and reduce the potential for accidents caused by the driver not paying attention. DMS is unique because it is the only driver monitoring system that can achieve this even if the driver is wearing shades, or in full sunshine.”
To deliver the processing power required by the DMS system, Seeing Machines asked Intel to install hardware in the F-Type prototype based on its newest Intel® Core™ i7 chips.
Eliott Garbus, vice president of transportation solutions at Intel said: “By choosing Intel chips to power their compute intensive technology Seeing Machines will be able to offer automakers like Jaguar Land Rover an enhanced experience for their customers in the future.”
Dr Wolfgang Ziebart, Jaguar Land Rover Engineering Director, said: “The attention-monitoring technology we are showcasing at CES has huge potential for road safety. If the driver’s gaze moves towards the infotainment screen or out of a side window, and the car identifies this, then the system could alert the driver to hazards earlier. DMS could even enhance settings in safety systems like Autonomous Emergency Braking, to reflect the driver’s lack of attention. As the car drives up to a hazard, the brakes could engage autonomously sooner because the car realises the driver has not seen the danger ahead.”
DMS could also help the car share information with the driver more effectively. Jaguar Land Rover is currently researching a next-generation heads-up display that could utilise the full width of the windscreen. The idea is to present the right information to the driver at the right time, without having to take their eyes off the road.
“Whether we are projecting a transparent view of the bonnet, or helping the driver to navigate by following a ghost car, it would be very useful to understand exactly when the driver’s eyes aren’t actually looking at the windscreen to see this information, so it can be repeated or shared in a different way,” added Dr Ziebart.