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Is this a Jaguar or Land Rover of the future? Yes, the near future

Jaguar Land Rover has unveiled a concept vehicle, Project Vector, that the company heralds as preview of future urban transport. The Project Vector is an EV, naturally, and is built on a skateboard chassis with all mechanicals under the floor. That provides for maximum space efficiency in the city-sized vehicle—JLR says it's roughly four meters long, which would make it about half a foot longer than today's Mini Cooper hardtop. It also allows for reconfigurability. The interior is accessed via dual center-opening sliding doors on one side. Four individual seats appear to be mounted on tracks and are shown facing in the same direction, but JLR also says the vehicle can be adapted for delivery use (presumably with most of the seats removed). Project Vector is described as "autonomous-ready," but for now it has a steering wheel and pedals. It's also claimed to be optimized for ride-sharing or private use. The vehicle was developed at the UK's National Automotive Innovation Centre, with the intention to make it a part of the "urban mobility solutions" in the "ecosystem of a smart city," according to JLR. The first such smart city will be Coventry, where an "urban mobility service" will be launched in 2021. Related Video:     Featured Gallery Jaguar Land Rover Project Vector Design/Style Green Jaguar Land Rover Transportation Alternatives Future Vehicles

New Land Rover Defender aces Euro crash tests

While the 2020 Land Rover Defender has not yet been crash-test by U.S. safety agencies such as NHTSA or IIHS, we do now have results for Europe's NCAP crash tests and accident-avoidance tests, where the Defender earned the top rating of five stars. The Defender model used for NCAP testing was the 110 variant with right-hand drive. The NCAP regimen includes several different crash tests: an offset front crash test into a moveable barrier with both the vehicle and the barrier traveling at 50 km/hr (31 mph), a front crash test into a full-width fixed barrier at 50 km/hr (31 mph), a side-impact crash test with a barrier traveling at 60 km/hr (37 mph) hitting the driver's door, and a side-impact test where the car strikes a pole at 32 km/hr (20 mph). The Defender's scores for the adult occupant and for a child occupant were both 85%. Additionally, the agency looks at the severity of injuries of the vehicle striking a pedestrian, taking data for a pedestrian's head hitting the hood, and their upper and lower leg being hit by the front of the vehicle. There is also testing of the vehicle's automatic emergency braking system's ability to avoiding hitting a pedestrian and a cyclist under various scenarios. The efficacy of active-safety systems for avoiding collisions with other vehicles is also tested. The Defender's score for protecting pedestrians and cyclists was 71%. The driver assists scored 79%. Results for several European-market cars were released together with those for the Defender, the most noteworthy of which was for the Honda E. The electric city car fared less well than the big Land Rover, garnering a score of four stars overall. In the same battery of test, the Honda E scored 76% for adult occupant protection, 82% for a child occupant, 62% for protecting pedestrians and cyclists, and 65% for its driver assists. This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings.

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.