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Jaguar Land Rover exploring 3D HUD and infotainment projections

With its most recent technology research, Jaguar Land Rover (JLR) is exploring the use of 3D projections for a world before and/or after autonomous vehicles come to fruition. In collaboration with the United Kingdom's University of Cambridge, JLR has developed concepts for a 3D head-up display that shows information on the road ahead and a system that projects personalized 3D infotainment for vehicle passengers.  As of right now, hundreds of production vehicles are equipped with two-dimensional head-up displays, some color, others black and white. Using various techniques and different technologies, manufacturers display information in a flat image in front of a driver. Some might find it distracting or unhelpful to have this in the driver's line of sight, and JLR might have found a solution. Rather than wedge the information in between the person and the view ahead, a 3D system that uses augmented reality could display the info onto the road in front of the driver. JLR thinks the system could project navigation directions, safety alerts such as lane departure, hazard detection or other bits typically found in a car's infotainment or instrument cluster. Some might find this to be even more distracting that 2D head-up displays, but to each his or her own. While the 3D head-up display is something that could be used right now, if it were released and passed legal, part two of JLR's 3D technology research is imagined for a life where truly autonomous vehicles are skating across the country. Using head- and eye-tracking technology, the system could lock into the position of numerous people in a vehicle and give each of them a personalized 3D projection "screen." This could be used to track a trip, look up points of interest, or even watch movies. JLR points out this could be used during ride-sharing without bothering others in the vehicle. The work with the Center for Advanced Photonics and Electronics at Cambridge is still in development for now, but it's only a matter of time before 3D tech makes it into cars in some degree.

Driving Jaguar's Continuation Lightweight E-Type

Something has happened to sports cars over the past 15-20 years. While reaching ever-higher levels of quantitative dominance the driving experience continues to become more sterile. Stability control, torque vectoring, variable electronic steering racks, lightning-quick dual-clutch automatic transmissions – all these make it easier to harness more power and drive faster than ever before. And yet too often it feels like something is missing. There is a growing divide between the capabilities of the modern performance car and the driver's sense of connection to the experience. In an era like the one we're in now, the Jaguar Lightweight E-Type hits you like a slap in the face. The story of the Lightweight E-Type goes back to 1963, when Jaguar set aside eighteen chassis numbers for a run of "Special GT E-Type" cars. These were factory-built racers with aluminum bodies, powered by the aluminum-block, 3.8-liter inline-six found in Jaguar's C- and D-Type LeMans racecars of the 1950s. Of the eighteen cars slated for production, only twelve were built and delivered to customers in 1964. For the next fifty years, those last six chassis numbers lay dormant, until their rediscovery a couple of years ago in a book in Jaguar's archives. In an era like the one we're in now, the Jaguar Lightweight E-Type hits you like a slap in the face. Jaguar Heritage, a section of Jaguar Land Rover's new Special Vehicle Operations (SVO) division, took on the task of researching the original Lightweight E-Types and developing the methods to create new ones. Every aspect of the continuation Lightweight E-Type, from the development of the tools and molds used to build the cars, to the hand-craftsmanship, reflects doing things the hard way. They may not build them like they used to, but with these six special E-Types, Jaguar comes awfuly close, if not better. Working alongside the design team, Jaguar Heritage made a CAD scan of one side of an original Lightweight E-Type body. That scan was flipped to create a full car's worth of measurements. That ensured greater symmetry and better fit than on the original Lightweight E-Types (which could see five to ten millimeter variance, left-to-right). The scan was also used to perfect the frame, while Jaguar looked through notes in its crash repair books to reverse-engineer the Lightweight E-Type's suspension. The team repurposed a lot of existing tooling for the continuation cars, and developed the rest from analysis of the CAD scan.

Jaguar opens new engine plant in the UK

The heads of Jaguar Land Rover are having a busy couple of weeks opening factories. Just days after inaugurating the company's first overseas plant in China, the automaker's new Engine Manufacturing Center in the UK is being inaugurated, as well. The plant near Wolverhampton, England, marks the first time in decades that JLR is building its own powerplants in-house. Further signaling the importance of this launch for the business, Queen Elizabeth II and Prince Philip were on hand and even tweeted about it.
The factory's first major project is to build JLR's latest Ingenium four-cylinders, starting with the 2.0-liter diesel version. "Our new Engine Manufacturing Centre is an important step in advancing the competitiveness and capability of the UK automotive sector. The production of in-house engines will support the expansion of the UK supply chain providing critical mass for inward investment," said Trevor Leeks, plant operations director in the automaker's announcement.
Opening the doors to the Engine Manufacturing Center has been years in the making for JLR. The plant was first announced in September 2011 and broke ground in June 2012. Building it cost the company 500 million pounds ($800 million) and created 1,400 new jobs. Of course, being a state-of-the-art factory, considerations were made to make the place as energy efficient as possible. That meant installing the UK's largest solar array with 21,000 panels to produce about 30 percent of the site's electricity needs.