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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.

Queen Elizabeth II was a longtime automotive enthusiast

Since driver's licenses, license plates, and passports were issued in her own name, Queen Elizabeth II didn't need them to drive and travel. She started combining the two just before she turned 19, joining the Auxiliary Territorial Service (ATS) transport division in 1945 for vehicle mechanic training. She wanted to help the British effort during World War II and would drive an ambulance — one that, theoretically, she could also fix if it broke down. The war ended before she graduated as an Honorary Junior Commander, the other ATS members dubbing her Princess Auto Mechanic. We donÂ’t know if she got under the hoods of the many official state vehicles and the far more numerous unofficial fleet in the royal garages, but she was still driving herself around England as late as this year. Here is a tiny selection of royal conveyances used during her 70-year reign. Gold State Coach (1762) True, she never drove this one, but a tour of every royal garage should start with the coach. King George III commissioned Samuel Butler to build it in 1760. Butler spent two years on the gilded carriage 24 feet long and more than 12 feet high. The quarters are suspended from the frame by leather straps, so occupants get tossed about even during a slow stroll, which is as fast as the eight Windsor Gray horses can pull it. It wasnÂ’t until the 1900s that King George VI rubberized the wooden wheels. Word is the queen didnÂ’t like it.   1953 Land Rover Series 1 Land Rover gave Queen ElizabethÂ’s father, King George VI, the 100th example of the 80 Series off the line in 1948. She picked up the Landie habit for herself five years later, when a 1953 Series 1 with a custom 86-inch wheelbase was part of the fleet used for her six-month tour of the Commonwealth in 1953 and 1954. That Land Rover became Ceremonial Vehicle State IV. The models above were built in Australia in 1958 as near copies of the Commonwealth tour vehicle, when Australia decided it wanted six identical versions for royal service. ItÂ’s thought the royal family went through around 30 Land Rover Series cars and Defenders since then, and many of the most common photos of her have her posing in or near one, especially the 2002 Defender built just for her. The royal family isnÂ’t finished with them, either: A current Defender 110 served as a luggage hauler for family members headed to Balmoral Castle during the queenÂ’s final days.

Jaguar tests autonomous vehicle technology with 100-car fleet

Jaguar Land Rover is exploring how to take autonomous vehicle technology off the paved path. But the company has plans for technology on tarmac, too. The company announced that the Jaguar division will have a fleet of 100 cars testing autonomous technologies on public roads. The testing process will cover a period of four years and begin with vehicle-to-vehicle and vehicle-to-infrastructure communication systems, along with a stereo camera system and autonomous vehicle software. These systems will work together to provide a variety of features that could make their way into future Jaguars and Land Rovers. The first feature in development is called "Roadwork Assist." The system relies on the stereo camera to create a 3D image the car's software can analyze. The software can identify road cones and other barriers associated with construction sites. The car will then alert the driver about entering the construction zone and provide some steering assistance to keep the car centered in its lane. Tony Harper, Jaguar's head of research, said that this system can reduce stress on the driver, and the technology could eventually be used to allow the car to pilot itself through construction zones. Another of Jaguar's proposed features is "Safe Pullaway," which also relies on cameras and software. The Safe Pullaway feature is designed to prevent close-proximity collisions in traffic jams and even in the garage. To do this, the car watches the area immediately ahead of it for obstacles. If the car detects something nearby while the driver adds throttle or shifts into gear, it will apply the brakes to prevent driving into the object. The final project on Jaguar's plate is its "Over the Horizon Warning" system. This will be one of the first features to rely on Jaguar's vehicle-to-vehicle communication technology. The idea is that connected cars in constant communication will give drivers additional warning of upcoming hazards, such as out-of-sight animals and slowed or stopped cars. In Jaguar's example of a stopped car, the stationary vehicle would send a signal alerting approaching cars of the situation. In turn, the approaching vehicles would trigger audible and visual warnings to drivers about the hidden car. Jaguar says that the system could also be applied to emergency vehicles. Emergency vehicles would broadcast a signal to alert drivers well before the lights and sirens get their attention. This would give emergency vehicles a faster, safer path through traffic.