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Honda sending two NSX racers and new EV concept to Pikes Peak

Honda is always good for a few interesting Pikes Peak entries. In 2015, Acura supplied a 2017 NSX prototype for pace-car duty. This time around, two NSXes will compete alongside a reconfigured version of the company's four-motor electric racecar. Those aren't the 2016 entries above. The one on the right is last year's pace car and the one on the left is a first-gen NSX that did the hillclimb the past few years. The 2016 cars haven't been unveiled yet, but we know that one will be in the Time Attack 2 Production class, which is mostly stock with the addition of items like a roll cage, and the other will be in Time Attack 1. TA 1 allows modifications to the powertrain, additional aero aids, suspension changes, and other tweaks, so expect to see a lot more power and a big wing on the back. The cars will be driven by James and Nick Robinson, brothers who work for Honda R&D in Ohio. Honda will use a version of the four-motor electric powertrain from its 2015 CR-Z Exhibition class entry in a new EV. (We got to drive a non-race tune of this setup in Japan last year.) The 2016 version, which will wear a different body, moves to the Electric - Electric Modified class of last year's frontrunners. We're told this car is aiming for an overall win at the 2016 race; the CR-Z took 11th place overall in 2015. The EV will again be driven by Tetsuya Yamano, a Japanese Super GT driver. Oh, and there will of course be a factory entry or two from Honda's Powersports division. Honda engineer Keith Steidl will ride a 2015 TRX1000 ATV in the Pikes Peak Challenge - Exhibition Powersport class. In the past, Honda has fielded plenty of other neat stuff in the Race to the Clouds. In 2012, it ran an NSX fitted with a twin-turbo V6 from an LMP2 car, and the 2013 race saw the very practical 532-horsepower turbocharged Odyssey minivan join the Exhibition class. The 2016 race marks the Pikes Peak hillclimb's 100th anniversary (but not the 101st running since competition took some breaks back in wartime). We're looking forward to June already. Related Video: Image Credit: Honda Green Motorsports Acura Honda Electric Hybrid Racing Vehicles pikes peak exclusive

Honda demonstrates driverless valet parking system with special Fit EVs

There are many challenges that will need to be sorted out before full autonomous driving becomes a reality, but automakers are taking small steps toward this advancement with semi-autonomous technologies. Nissan, Toyota and Ford have already revealed various automated driving systems, and now Honda is getting into the game with an automatic valet parking system that was unveiled recently at the Intelligent Transportation Systems (ITS) World Congress in Tokyo.
Unlike Ford's recently demonstrated self-parking Focus, which is fully operational on its own, Honda's new system requires input from the parking lot via cameras. Combining information provided by the car's rearview camera as well as cameras positioned around the parking lot, drivers are able to drop their car off at a central location, and using a touchscreen display, the car can park itself and return when the driver is ready to leave. The benefit of this is that multiple cars can be parked at the same time and no additional sensors (other than a backup camera) are needed for the car, but the downside is that it can only operate on properly equipped parking lots. According to Honda's demonstration, this system can be practical by 2020.
Honda also showed off some semi-autonomous driving and non-contact electric vehicle recharging technologies at the ITS World Congress, although information is limited and there are no demonstrations available. Scroll down to read more about Honda's latest tech, including a video demonstration of the automatic valet parking system.

New Honda smart cruise control predicts other motorists' future idiocy

It's not quite "Open the pod bay doors, Hal," but we're getting there: Honda is offering a predictive cruise control system on the Exectuve Grade Honda CR-V in Europe starting this year. Advancing the capabilities of the present adaptive cruise control, the Intelligent Adaptive Cruise Control (i-ACC) will be able to foresee and automatically react to other vehicles cutting in ahead of you up to five seconds ahead of it happening. A research team developed the system after studying European driving patterns for years. The i-ACC keeps track of surrounding cars with a camera and radar, "evaluating relations between multiple vehicles" and running the data through an algorithm to figure out who's going to do what. If it detects another car about to move into your lane, the CR-V brakes softly and a dash light illuminates to let the driver know what's about to happen, then it brakes a little more firmly to keep the proper distance after the other car moves in. Honda says it works in the UK and on The Continent because it knows which side of the road you're driving on. That means it could work here, but our guess is that it will take a while for that happen, our driving patterns being a little more erratic - and that's putting it kindly - than those of our Euro brethren. There's a press release below with more information. Honda to Introduce World's First Predictive Safety Cruise Control System 08.01.2015 - Honda is to introduce the world's first predictive cruise control system known as Intelligent Adaptive Cruise Control (i-ACC), capable of foreseeing and automatically reacting to other vehicles 'cutting-in' to the equipped vehicle's lane. Based on extensive real-world research of typical European driving styles, Honda's Intelligent Adaptive Cruise Control (i-ACC) uses a camera and radar to sense the position of other vehicles on the road. It then applies an algorithm to predict the likelihood of vehicles in neighbouring lanes cutting-in by evaluating relations between multiple vehicles, enabling the equipped vehicle to react quickly, safely and comfortably. i-ACC will make its debut this year on the new European CR-V*, building upon the traditional Adaptive Cruise Control (ACC) system. Traditional ACC systems keep a preselected longitudinal velocity, which is only reduced for maintaining a safe distance to a car in front. However, if a vehicle cuts-in from a neighboring lane, the traditional ACC system reacts later thus requiring stronger braking.