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Jaguar Land Rover offers (some) detail about new Ingenium engine

Jaguar Land Rover officially announced its Ingenium family of engines with the unveiling of the 2.0-liter version in the Jaguar XE concept at the 2014 Geneva Motor Show, but it kept details very thin at the time. All we knew was that the new turbocharged mills could be configured to use gasoline or diesel, and be positioned longitudinally or transversely. Months later, JLR is finally letting some more info slip about its new baby, but there are still some big questions to be answered.
For the Ingenium project, Jaguar Land Rover gave its engineers a clean sheet of paper and told them not to worry about using any previous parts or machinery. In the end, the designers came up with a family of turbocharged, aluminum-block engines based around modular, 500cc cylinders to allow it to grow or shrink as the market demanded. The layout was also made adaptable enough to incorporate hybrid drivetrains, if needed. "Being configurable and flexible are the two key strands of Ingenium's DNA because we have future-proofed our new engines from the outset," said said Ron Lee, the company's director of Powertrain Engineering.
To maximize efficiency, Jaguar promises that all versions of the Ingenium engines come with computer-controlled, variable oil pumps and water pumps to use only as much energy as needed. They also get direct injection, roller bearings for the cams and stop/start. The diesel version alone has 17 percent less internal friction than the mill it replaces, the company claims. JLR is also promising class-leading figures for Ingenium's torque and horsepower too, but it's not giving away those specs just yet.

Jaguar Land Rover's latest tech makes roads safer for bikes [w/video]

Safety in automobiles isn't just about protecting the occupants anymore. It's about protecting pedestrians who might be struck by an automobile, and as Jaguar Land Rover is demonstrating, it's about protecting cyclists as well. The latest experimental safety system from the British automaker is called Bike Sense, and it builds upon technologies the company has demonstrated recently, taking them a step further to make the road safer for those riding on two wheels. The system uses a combination of colors, sounds and vibrations to alert the driver of a potential hazard that might have otherwise gone unnoticed. Demonstrated on an XJ sedan, the system identifies nearby two-wheeled vehicles as pedal-powered or motorized, and alerts the driver accordingly. If a cycle is passing a the vehicle's blind spot, the top of the seat will vibrate to virtually "tap" the driver on the left or right shoulder, prompting him or her to look over that shoulder for the hazard. LEDs inside the cabin will then illuminate amber to red in the direction that the bike is passing. The system will even chime a bicycle bell or motorcycle horn as the two-wheeled vehicle approaches, and vibrate or stiffen the accelerator pedal if the driver keeps moving towards the obstacle. And if an occupant of the parked vehicle starts to open the door into the path of moving vehicle, it'll flash a light, sound an alarm and even vibrate the door handle to warn the occupant of the oncoming hazard. We could imagine the alerts getting a little distracting, but JLR says the system is designed to prioritize potential hazards when their are groups of pedestrians, bicyclists and/or motorcycle riders on a busy urban street. This is, of course, just the latest in a long string of new systems JLR has under development, following such technologies as the Transparent Bonnet, the Smart Assistant, the Virtual Windscreen for track sessions and the 360 Virtual Urban Windscreen for city driving. 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.