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Jaguar Land Rover and Cambridge have developed a touchless touchscreen

Jaguar Land Rover and the University of Cambridge are working on new touchscreen technology that eliminates the need to touch the screen. Counterintuitive, right? It’s called “predictive touch” for now, in part because the system is able to predict what you might be aiming for on the screen.  The video at the top of this post is the best way to understand how users will interact with the tech, but weÂ’ll do some more explaining here. You simply reach out with your finger pointing toward the item on screen that you want to select. ItÂ’ll highlight the item and then select it. HereÂ’s how it works, according to the University of Cambridge: “The technology uses machine intelligence to determine the item the user intends to select on the screen early in the pointing task, speeding up the interaction. It uses a gesture tracker, including vision-based or radio frequency-based sensors, which are increasingly common in consumer electronics; contextual information such as user profile, interface design, environmental conditions; and data available from other sensors, such as an eye-gaze tracker, to infer the userÂ’s intent in real time.” Cambridge claims that lab tests showed a 50 percent reduction in both effort and time by the driver in using the screen, which would theoretically translate to more time looking at the road and less time jabbing away at the screen. If the prediction and machine learning tech is good enough, we could see this resulting in a reduced number of accidental inputs. However, on a certain level it almost sounds more difficult to point at a screen while moving than it does to actually touch a section of that screen. Without using the tech and its supposedly great predictive abilities, we canÂ’t come to any grand conclusions. One comparison you may already be thinking of is BMWÂ’s Gesture Controls. ItÂ’s already been addressed with a subtle diss from Cambridge: “Our technology has numerous advantages over more basic mid-air interaction techniques or conventional gesture recognition, because it supports intuitive interactions with legacy interface designs and doesnÂ’t require any learning on the part of the user,” said Dr Bashar Ahmad of the University of Cambridge. Of course, this tech can be used for much more than just vehicle touchscreen control. Cambridge says it could be integrated into ATMs, airport check-in kiosks, grocery store self checkouts and more.

Automotive Grade Linux will be the backbone of your connected car

Creating a backend for a secure, reliable, and expandable infotainment system is costly and time consuming. The Linux Foundation, a non-profit organization, has set out to promote and advance the Linux operating system in commercial products. Automotive Grade Linux, or AGL, is a group within the Foundation that seeks to apply a Linux backend to a number of automotive applications in a variety of vehicles from various suppliers and manufacturers. AGL's goal is to create a common, unifying framework that allows developers and manufacturers to easily implement applications across platforms. Currently, the focus is on infotainment systems, but AGL has plans for instrument clusters, heads-up displays, and eventually active safety software. At CES, a display from Panasonic showed a completely digital and customizable dashboard that allows information and apps to be moved from the gauge cluster to the infotainment screen and back, all through the use of gesture and touch controls. Although the organization has been around for five years, it's really only been in the past three that the group has been working hand in hand with automakers and suppliers. The first two OEMs to participate, Toyota and Jaguar Land Rover, have since been joined by Mazda, Suzuki, Ford, and, as of this week, Daimler. The latter is important as until now most of AGL's partner's have been based in Japan or the US. Other partners include suppliers Denso, Renesas, Continental, Qualcomm, and Intel. AGL want's to supply roughly 80 percent of the backend, allowing partners to then finish and refine the Linux system for each individual application. Think of how the Android operating system is refined and customized for individual smartphones from Samsung, LG, and Motorola. While the final product looks different, developers can have an application that will work across all AGL systems. Because it is open source, anyone can use and develop for AGL. You can even go onto the group's website and download a copy right now. There is also a software development kit available that helps facilitate app creation on the platform. Vehicle development cycles take roughly five years, so there currently are no cars that run an AGL backbone available for consumers. AGL Executive Director Dan Cauchy says products should be hitting the market later this year, with even more coming in 2018. Right now, the industry is relatively fragmented when it comes to infotainment and related systems.

The Jaguar XJR-15 is a 215 mph, barely-legal road car that's for sale

The late 1980s and early 1990s were awash with supercars from automakers across the globe. Classic Driver in the UK is selling one of the rarest of all of these supercars, the road-going racecar that is the Jaguar XJR-15. The XJR-15 is the lesser known sibling of the Jaguar XJ220. Only 27 were ever built. The XJ220 may not have received the same recognition and reverence as the Ferrari F40, the Porsche 959, and the McLaren F1, but for a time it held the record for the fastest road-going automobile, 217.1 mph. All of the XJ220's engineering and prowess is owed to the development of the XJR-15, which in turn owes everything to driver Tom Walkinshaw and his experience in touring and Le Mans racecars. Unlike the twin-turbocharged XJ220, the XJR-15 features a big, naturally-aspirated V12 that turned out 450 horsepower and 420 lb-ft of torque when new. The engine has a dry sump oil system, a Cosworth forged crankshaft, connecting rods, aluminum pistons, and fuel delivery from a Zytec electronically controlled sequential fuel injection system. The engine is mated to a five-speed transaxle from Tom Walkinshaw Racing, while the suspension - fabricated wishbones and horizontal pushrod-spring dampers at the front and coil springs at the rear - is pulled straight from the XJR-9 racecar. At the time, the car was capable of hitting 60 mph in under four seconds and topped out at 215 mph, just shy of the mark later set by the Jaguar XJ220. The XJR-15 was also the first road car to make extensive use of carbon fiber. In fact, at 2,315 lbs, the car's listed weight is less than that of a new ND Mazda Miata. The body was designed by future McLaren F1 engineer Peter Stevens. While the McLaren and Porsche were more complete and well rounded machines, the XJR-15 was a bare bones, uncompromised track machine. The interior was barely more than a carbon tub fitted with a pair of one-piece seats. The car in this listing is chassis number 21 and only has 1,400 miles on the odometer. Some minor modifications to the hinges allow the hood and engine cover to be quickly and easily opened. The car is listed for GBP450,000, or about $560,000. Not cheap, but what rare, early 1990s supercar is? Related Video: News Source: Classic Driver via Car Buzz Jaguar Coupe Performance ferrari f40 jaguar xj220