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Guardian -- Apple is building a self-driving car in Silicon Valley, and is scouting for secure locations in the San Francisco Bay area to test it, the Guardian has learned. Documents show the oft-rumoured Apple car project appears to be further along than many suspected.

In May, engineers from Apple’s secretive Special Project group met with officials from GoMentum Station, a 2,100-acre former naval base near San Francisco that is being turned into a high-security testing ground for autonomous vehicles.

In correspondence obtained by the Guardian under a public records act request, Apple engineer Frank Fearon wrote: “We would ... like to get an understanding of timing and availability for the space, and how we would need to coordinate around other parties who would be using [it].”

Apple declined to comment.

GoMentum Station is on the old Concord naval weapons station, a disused second world war-era facility with 20 miles of paved highways and city streets. The base is closed to the public and guarded by the military, making it, officials claim, “the largest secure test facility in the world” for the “testing validation and commercialization of connected vehicle (CV) applications and autonomous vehicles (AV) technologies to define the next generation of transportation network infrastructure.” Mercedes-Benz and Honda have already carried out experiments with self-driving cars behind its barbed-wire fences.

 

 

This security is bound to appeal to Apple, which has hundreds of engineers quietly working on automotive technologies in an anonymous office building in Sunnyvale, four miles from its main campus in Cupertino. Details of the project are still unknown but it seems that Apple has a self-driving car almost ready for the road. In late May, Jack Hall, program manager for autonomous vehicles at GoMentum Station, wrote to Fearon to postpone a tour of the facility but noted: “We would still like to meet in order to keep everything moving and to meet your testing schedule.”

Apple has been rumoured to be working on a self-driving electric car, codenamed Project Titan, but this is the first time its existence has been documented. In May, Apple senior vice-president Jeff Williams called the car “the ultimate mobile device” and said that Apple was “exploring a lot of different markets ... [in which] we think we can make a huge amount of difference”.

Read the rest of the story here: http://www.theguardian.com/technology/2015/aug/14/apple-self-driving-car-project-titan-sooner-than-expected

Fortune -- Ford CEO Mark Fields is trying to navigate his company through an era of upheaval in the auto industry. Cars are no longer merely steel on wheels. They’re mobile computers that can respond to voice commands, serve as a hub for digital entertainment and drive themselves.

Fortune spoke with Fields recently at Ford’s Silicon Valley lab, an office that opened earlier this year as a beachhead for innovation. He’s hoping that having workers on the ground in the heart of the tech industry’s capital will help the company identify and adopt new technology more quickly. Ford F 0.56% is facing a stiff challenge to keep up from the usual auto making suspects plus newcomers like Google and Tesla. Even Uber, the ride hailing app, is a threat if people stop buying cars and use its service instead to be driven where they need to go.

The following is a Q&A with Fields that has been edited for length and clarity:

Q: How important are self-driving cars to Ford?

They’re important. But it’s more important to think about self-driving cars more holistically. We call this Ford Smart Mobility. It’s not only about autonomous vehicles, it’s about the connected car, it’s about mobility and ride sharing. It’s around the enabling technologies for the retail experience. All these things are connected. You can’t have an autonomous vehicle unless you have a connected car, and visa versa. You can’t have ride sharing without having the connection. They’re all intertwined.

Q: Is it important to be first? Ford isn’t really seen as being in the lead on self-driving cars.

It’s not the No. 1 thing that drives us. I think the No. 1 thing that drives us, and it gets back to our DNA as a company going back to our founder, Henry Ford, is around innovating to make things accessible to everyone — not just the rich. Even now, semi-autonomous features are the building blocks for full autonomy. When you look the breadth of semi-autonomous features that we have in our vehicles, we’re in a leading position there. With everything from our Fiesta all the way up to our Lincolns — customers can get a lot of these features. So as we go forward, we’re going to make sure that we continue to build on that legacy and push ourselves to make sure it’s accessible and affordable – not necessarily being the first.

Read the rest of the story here: http://fortune.com/2015/05/26/ford-ceo-wants-to-make-a-self-driving-car-for-the-masses/

Ford shifts its autonomous car program into a higher gear, announcing it will become the first automaker to test its self-driving cars at a new Michigan compound.

While the Detroit manufacturer has been working on both connected- and autonomous-car technologies for a decade, the new testing program at Mcity – a 32-acre faux metropolis in Ann Arbor, Mich. – reflects Ford’s recent move to upgrade its self-driving efforts from pure research to advanced engineering.

“We’ve been testing (autonomous) cars in the real world, but using a place like Mcity will allow us to refine our algorithms and better calibrate car sensors by repeating specific situations in a reliable way,” says Raj Nair, Ford’s vice president of global product development.

Mcity opened this past summer and is a joint project of the University of Michigan and the state’s Department of Transportation. Ford is one of a few large automakers contributing $1 million over three years to Mcity, which features storefronts, traffic lights, pedestrian zones and other real-world infrastructure to better train autonomous cars on how they need to react in a range of scenarios.

With the reality of streets humming with self-driving cars now more a matter of when than if, automakers and technology companies are looking for ways to accelerate their respective efforts.

Washington Post -- A new patent describes a system to react to pedestrians and display the vehicle’s intent to pedestrians. (U.S. Patent & Trademark Office)

The doors of Google’s self-driving vehicles are currently decorated with art work. There are sunsets, flowers and parks. But the warm nature scenes may eventually have competition for that real estate from an unlikely source — utilitarian traffic signage.

Google received a patent Tuesday detailing how a self-driving vehicle would determine if pedestrians were likely to cross a street, plan its next move accordingly, and then notify the pedestrians of its intent. Since the cars are being driven by a computer, a pedestrian can’t count on a hand signal or eye contact from a passenger to know a vehicle is waiting for them.

The patent describes using electronic screens mounted on the side of the vehicle — including potentially the roof, hood and rear of vehicle — to tell a pedestrians if it was safe to cross. The displays might show a stop sign, a traffic sign, or just text. The car might react by coming to a complete stop, slowing down and yielding, or maintaining its speed.

The patent also suggests some other options. A speaker on the outside of the vehicle might call out alerts, such as “coming through” or “safe to cross.” Perhaps most interesting is the potential use of a robotic hand and eyes to gesture at pedestrians and make them aware that the car “sees” them.

Sadly, no sketches of the robotic arm or eyes are included in the patent. Google initially filed for the patent in September 2012. The system is similar to one Nissan showed off last month, in which a screen on the dashboard shared messages with pedestrians.

Read the rest here: https://www.washingtonpost.com/news/innovations/wp/2015/11/27/google-patent-reveals-how-its-self-driving-cars-may-communicate-with-pedestrians/

3/23/2016, YNET News -- The autonomous car is coming to Israel: a steering team that includes representatives from various government ministries began on Sunday to work towards preparing the ground for the arrival of the revolutionary technology in Israel.

The Transportation Ministry said the team has been tasked with “designing a strategic plan for the move and creating a proper synergy between ministries for the purpose of properly preparing for the coming of the autonomous car.” The team is expected to meet regularly throughout the year to discuss opinions and examine various issues, including the ramifications on each ministry’s work.

The first discussion, held on Sunday, included 30 representatives from the Ministries of Transportation, Justice, Economy, Finance, and Environmental Protection, as well as the Tax Authority, Prime Minister’s Office, Electricity Authority, and the Office of the Chief Scientist. 

http://www.ynetnews.com/articles/0,7340,L-4781277,00.html

While self-driving cars already are being tested on public roads, newly released safety data support the cautionary view that the technology has many miles to go before people can sleep at the wheel.

That doesn’t mean relief is decades away for drivers weary of commuting. It’s possible, even likely, that within a few years mainstream cars will be able to drive themselves reliably — on routes they have mastered, in weather they can handle and on the premise that a driver will be ready to take over when needed. (The White House last week said it will work with auto companies and state governments to speed up the arrival of driverless cars.)

Traditional automakers and technology companies such.. read more

Technology Review -- “Where would you like to go?” Siri asked.

It was a sunny, slightly dreamy morning in the heart of Silicon Valley, and I was sitting in the passenger seat of what seemed like a perfectly ordinary new car. There was something strangely Apple-like about it, though. There was no mistaking the apps arranged across the console screen, nor the deadpan voice of Apple’s virtual assistant, who, as backseat drivers go, was pretty helpful. Summoned via a button on the steering wheel and asked to find sushi nearby, Siri read off the names of a few restaurants in the area, waited for me to pick one, and then showed the way on a map that appeared on the screen.

The vehicle was, in fact, a Hyundai Sonata. The Apple-like interface was coming from an iPhone connected by a cable. Most carmakers have agreed to support software from Apple called CarPlay, as well as a competing product from Google, called Android Auto, in part to address a troubling trend: according to research from the National Safety Council, a nonprofit group, more than 25 percent of road accidents are a result of a driver’s fiddling with a phone. Hyundai’s car, which goes on sale this summer, will be one of the first to support CarPlay, and the carmaker had made the Sonata available so I could see how the software works.

CarPlay certainly seemed more intuitive and less distracting than fiddling with a smartphone behind the wheel. Siri felt like a better way to send texts, place calls, or find directions. The system has obvious limitations: if a phone loses the signal or its battery dies, for example, it will stop working fully. And Siri can’t always be relied upon to hear you correctly. Still, I would’ve gladly used CarPlay in the rental car I’d picked up at the San Francisco airport: a 2013 Volkswagen Jetta. There was little inside besides an air-conditioning unit and a radio. The one technological luxury, ironically, was a 30-pin cable for an outdated iPhone. To use my smartphone for navigation, I needed a suction mount, an adapter for charging through the cigarette lighter, and good eyesight. More than once as I drove around, my iPhone came unstuck from the windshield and bounced under the passenger seat.

Android Auto also seemed like a huge improvement. When a Google product manager, Daniel Holle, took me for a ride in another Hyundai Sonata, he plugged his Nexus smartphone into the car and the touch screen was immediately taken over by Google Now, a kind of super-app that provides recommendations based on your location, your Web searches, your Gmail messages, and so on. In our case it was showing directions to a Starbucks because Holle had searched for coffee just before leaving his office. Had a ticket for an upcoming flight been in his in-box, Holle explained, Google Now would’ve automatically shown directions to the airport. “A big part of why we’re doing it is driver safety,” he said. “But there’s also this huge opportunity for digital experience in the car. This is a smart driving assistant.”

CarPlay and Android Auto not only give Apple and Google a foothold in the automobile but may signal the start of a more significant effort by these companies to reinvent the car. If they could tap into the many different computers that control car systems, they could use their software expertise to reimagine functions such as steering or collision avoidance. They could create operating systems for cars.

Google has already built its own self-driving cars, using a combination of advanced sensors, mapping data, and clever navigation and control software. There are indications that Apple is now working on a car too: though the company won’t comment on what it terms “rumors and speculation,” it is hiring dozens of people with expertise in automotive design, engineering, and strategy. Vans that belong to Apple, fitted with sensors that might be useful for automated driving, have been spotted cruising around California.

Read the rest of the story here:

http://www.technologyreview.com/featuredstory/538446/rebooting-the-automobile/

NY Times -- It seemed like the perfect night life accessory for the South Beach set — an automated robotic parking garage where trendy clubgoers could park their Porsches with a futuristic touch of a button.

Forget hiding your GPS and favorite Fendi sunglasses from a valet who might ding your new alloy wheels; this garage would park cars itself.

Instead, malfunctions lasted for hours. Cars were smashed, and faulty machinery fell several stories to the ground. Sometimes vehicles were stuck for so long that garage operators had to pay for customers’ taxis.

“It was clear that the garage was not ready to be open to the public,” said Russell Galbut, the managing principal at Crescent Heights, the property developer, which has sued two manufacturers over the botched garage.

While engineers aim to perfect self-driving cars, they still have a lot of work to do on another element of the idealized commute of the future: robotic parking. Designs differ, but most consist of a combination of automated ramps, slabs, lifts and shelves, using a computerized system that parks and delivers a car like a high-tech vending machine.

Read the rest here: http://www.nytimes.com/2015/11/28/us/road-to-robotic-parking-islittered-with-faulty-projects.html?_r=0

Fleet Owner -- The trucking industry is expected to undergo significant and continued “transformation” due to ongoing incorporation of more active safety technologies, such as collision mitigation, and factory-installed telematics systems, according to a panel discussion at the 2015 Commercial Vehicle Outlook Conference last week in Dallas, Texas.

Stephen Hampson, president and GM of Meritor WABCO, and Chris Hines, executive VP for Zonar Systems, both argued that various technologies will not only continue to make the industry safer – reducing crashes and helping identify bad driving habits – but also help boost fleet profitability as well, particularly via increased vehicle uptime.

“We’re witnessing an evolution of safety systems that integrate multiple technologies such as lane departure warning (LDW), electronic stability control (ESC), telematics and data/video capture devices,” Hampson said.

“We’re also now starting to share data through vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) technology as well,” he added. “All of that will help improve vehicle and driver performance, not only to reduce crashes but to pave the way for semi-autonomous and fully autonomous vehicles as well.”

Reducing the severity of crashes – if not eliminating them altogether – is what will help fleets achieve payback from their safety system investments, Hampson stressed.

For example, he pointed to the projected benefits from the National Highway Traffic Safety Administration’s (NHTSA) impending ESC mandate for tractor-trailers.

Assuming that all existing 5-axle tractor-trailers operating on U.S. roads get fitted with ESC, the expected annual safety benefit is 4,659 fewer crashes, 126 fewer fatalities, and 5,909 fewer injuries, all while saving $1.5 billion a year in crash-related expenses.

Hampson also noted that the rapid changes occurring to newer safety technologies, such as Meritor WABCO’s OnGuard collision mitigation system, should further reduce accidents.

WNCN -- Ever since Henry Ford strapped on four wheels to the base of the Model T back in 1908, society has fostered a growing question: When will we be able to get behind the wheel of a self-driving car?

Cartoons as far back as the 1950’s predicted we would be zipping around in futuristic self-driving cars by the year 2000. Unfortunately, it’s taking us a little longer than that.

But the future of transportation may be closer than you think. A new research project at the University of North Carolina’s Computer Science Department is looking to bridge the gap between fantasy and reality.

“Folks may look back at us today and wonder, ‘Why did these people ever try to drive these cars themselves?’” said Dr. Jim Anderson, a professor at UNC and the principal investigator on the project.

Anderson and his team have partnered with General Motors to create data for a more reliable, safer and cheaper autonomous car.

“General Motors gave us some funding and then together we went and got some additional funding from the National Science Foundation. As a result of these two things, this grew into a fairly large project,” said Anderson

The team was able to secure $300,000 in funding from General Motors and $1 million from the National Science Foundation.

Anderson and his team of four faculty members and four graduate students began breaking down the code; trying to figure out how to fit more computing power in a car in a realistic setting.

“It sucks up a lot of size, weight and power which are important concerns,” Anderson said. “This gets very expensive, very fast.”

The team’s goal is to give an autonomous car the reliability of a human’s split-second thinking.

“If you think about the amount of information that comes to the human brain, the vast majority of it is visual information and a big chunk of our brain is dedicated to this,” said Dr. Alexander Berg, a professor at UNC also working on the project. “These are indications that this is a challenging task.”

Google has also been experimenting with self-driving cars since 2009. Since then, the cars have driven 1.8 million miles and have been involved in several accidents.

However, Google says all of those accidents were a result of human error, but more research is needed.

“I’ve seen estimates on the cost of the hardware of Google self-driving cars being $150,000 and that’s significantly more expensive than most of the cars I’d ever think about buying anyway,” said Berg.

Read the rest of the story here: http://wncn.com/2015/07/08/unc-explores-future-of-transportation/



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