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Ford partnering with MIT, Stanford on autonomous vehicle research

Ask any car engineer what's the biggest variable in achieving fuel economy targets, and he'll tell you "the driver." If one human can't understand human driving behavior enough to be certain about an innocuous number like miles per gallon, how is an autonomous car supposed to figure out what hundreds of other drivers are going to do in the course of a day? Ford has enlisted the help of Stanford and the Massachusetts Institute of Technology to find out.
Starting with the automated Fusion Hybrid introduced in December, MIT will be developing algorithms that driverless cars can use to "predict actions of other vehicles and pedestrians" and objects within the three-dimensional map provided by its four LIDAR sensors.
The Stanford team will research how to extend the 'vision' of that LIDAR array beyond obstructions while driving, analogous to the way a driver uses the entire width of a lane to see what's ahead of a larger vehicle in front. Ford says it wants to "provide the vehicle with common sense" as part of its Blueprint for Mobility, preparing for an autonomous world from 2025 and beyond.

How the 2015 Ford Mustang will save your knees

The 2015 Mustang is one of the most hotly anticipated vehicles of the moment, and Ford continues to leak out interesting little details about its newest pony car. The latest info doesn't have anything to do with its quarter-mile time or handling, but if any of that goes drastically wrong, the innovative new glovebox-mounted airbag may prevent passengers from knee injuries.
All variants of the 2015 Mustang get the active knee airbag as standard, and it's the first vehicle in Ford's lineup to receive the system. The setup is actually quite simple and ingenious. The glovebox is made from a plastic outer panel that is attached to the inner door. Sandwiched between them is this new injection-molded plastic bladder that folds flat when in use. If the passenger-side airbag deploys, the system springs into action to act as a cushion for your knees. Compared to a traditional knee airbag that has to fully inflate, this arrangement is 65 percent lighter and can use a 75 percent smaller inflator. It's also basically invisible when you look at the glovebox door.
Ford spokesperson Ed Saenz declined to tell Autoblog whether the system will appear in other vehicles in the Blue Oval's lineup but said, "We're considering other applications." Provided it's effective, the approach seems too simple not to make its way to other products. Scroll down to watch a video showing how the glovebox-mounted knee airbag works.

Ford looks to space robots to improve car-to-car communications [w/video]

Ford has partnered with St. Petersburg Polytechnic University for three years to research various kinds of connected vehicle communications. The university tie-up is part of its study of space robots, NASA systems created to enable space-to-Earth communication, and the university's own development of systems that enable communication between the International Space State and Earth.
The objective is for Ford to engineer layers of robust networks and redundancy systems that will allow your car to speak to other cars, to emergency vehicles, to infrastructure like traffic lights and buildings, and to the cloud. Benefits would come in just about every area of transit, from avoiding accidents, to getting medical workers to an accident more quickly, to improving the flow of traffic during rush hour.
Check out the press release below for details on what Ford wants to learn from the JUSTIN Humanoid and NASA Robonaut R2, and a video of technical leader Oleg Gusikhin discussing his interest in the project.