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Ford opens research center in Silicon Valley

These days, the software running a vehicle's myriad of electronic systems seems to be getting nearly as much development focus from automakers as the traditional mechanical parts that keep a car going. Constantly improving that technology requires a lot of experimentation, though, and Ford is expanding its presence in Silicon Valley with the just-opened Research and Innovation Center Palo Alto to make that progress possible. Ford opened its first office in the country's technological hub in 2012 to draw talent and devise ways to deal with vast amounts of sensor data. Apparently, setting up shop in Silicon Valley was deemed a success because the Blue Oval decided to create this new lab in the Stanford Research Park to focus on five areas: connectivity, mobility, autonomous vehicles, customer experience and analytics. Among the center's potential projects, Ford is hoping to develop better natural speech recognition, which is absolutely vital for improving infotainment systems. Assuming the tech eventually works well enough, your voice might even be used to adjust a vehicle's power seats, according to the automaker. The Blue Oval is also letting engineers from Stanford University test autonomous driving algorithms on a self-driving version of the Fusion. In a smaller stakes venture, researchers are working to get a Nest smart thermometer to automatically adjust the temperature at home depending on if an owner's vehicle is leaving or coming back. To really show that its serious about these ventures, Ford hired Dragos Maciuca away from Apple as the center's technical leader. The automaker also wants to have 125 researchers at work there by the end of the year.

Inside Ford's high-tech climate chamber

There are two ways an automaker can test its vehicles in extreme climates: it can send said vehicle around the world – from Death Valley to the Arctic Circle – in search of the harshest weather, or it can recreate those conditions in an enclosed environment. We're sure that many automakers undertake some combination of both, but in this latest video clip, Ford shows us around inside it's state-of-the-art climate chamber. At its Driveability Test Facility in Allen Park, MI – inaugurated in 2010 just across the street from the Roush Technology Center – Ford can simulate all sorts of extreme conditions. It can drop the temperature down to -40 degrees Fahrenheit or raise it up to 130, and take it up to a simulated 12,000 feet above sea level or drop it down to 280 feet below. blast it with 150-mile-per-hour winds. It can control the level of humidity, approximate the intensity of the sun and even blast the test vehicle with artificial snow, just like your favorite ski resort. The facility strikes us as an engineering feat as impressive as some of the vehicles it's used to test, but don't take our word for it – scope it out for yourself in this brief two-minute video clip, which even includes some helpful tips for winter driving this holiday season and beyond. News Source: Ford via YouTube Plants/Manufacturing Ford Videos Michigan winter

Nuclear-powered concept cars from the Atomic Age

In the 1950s and early 60s, the dawn of nuclear power was supposed to lead to a limitless consumer culture, a world of flying cars and autonomous kitchens all powered by clean energy. In Europe, it offered the then-limping continent a cheap, inexhaustible supply of power after years of rationing and infrastructure damage brought on by two World Wars.
The development of nuclear-powered submarines and ships during the 1940s and 50s led car designers to begin conceptualizing atomic vehicles. Fueled by a consistent reaction, these cars would theoretically produce no harmful byproducts and rarely need to refuel. Combining these vehicles with the new interstate system presented amazing potential for American mobility.
But the fantasy soon faded. There were just too many problems with the realities of nuclear power. For starters, the powerplant would be too small to attain a reaction unless the car contained weapons-grade atomic materials. Doing so would mean every fender-bender could result in a minor nuclear holocaust. Additionally, many of the designers assumed a lightweight shielding material or even forcefields would eventually be invented (they still haven't) to protect passengers from harmful radiation. Analyses of the atomic car concept at the time determined that a 50-ton lead barrier would be necessary to prevent exposure.