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Automotive Grade Linux will be the backbone of your connected car

Creating a backend for a secure, reliable, and expandable infotainment system is costly and time consuming. The Linux Foundation, a non-profit organization, has set out to promote and advance the Linux operating system in commercial products. Automotive Grade Linux, or AGL, is a group within the Foundation that seeks to apply a Linux backend to a number of automotive applications in a variety of vehicles from various suppliers and manufacturers. AGL's goal is to create a common, unifying framework that allows developers and manufacturers to easily implement applications across platforms. Currently, the focus is on infotainment systems, but AGL has plans for instrument clusters, heads-up displays, and eventually active safety software. At CES, a display from Panasonic showed a completely digital and customizable dashboard that allows information and apps to be moved from the gauge cluster to the infotainment screen and back, all through the use of gesture and touch controls. Although the organization has been around for five years, it's really only been in the past three that the group has been working hand in hand with automakers and suppliers. The first two OEMs to participate, Toyota and Jaguar Land Rover, have since been joined by Mazda, Suzuki, Ford, and, as of this week, Daimler. The latter is important as until now most of AGL's partner's have been based in Japan or the US. Other partners include suppliers Denso, Renesas, Continental, Qualcomm, and Intel. AGL want's to supply roughly 80 percent of the backend, allowing partners to then finish and refine the Linux system for each individual application. Think of how the Android operating system is refined and customized for individual smartphones from Samsung, LG, and Motorola. While the final product looks different, developers can have an application that will work across all AGL systems. Because it is open source, anyone can use and develop for AGL. You can even go onto the group's website and download a copy right now. There is also a software development kit available that helps facilitate app creation on the platform. Vehicle development cycles take roughly five years, so there currently are no cars that run an AGL backbone available for consumers. AGL Executive Director Dan Cauchy says products should be hitting the market later this year, with even more coming in 2018. Right now, the industry is relatively fragmented when it comes to infotainment and related systems.

For EV drivers, realities may dampen the electric elation

The Atlantic, a decades-old monthly journal well-regarded for its intelligent essays on international news, American politics and cultural happenings, recently turned its attention to the car world. A piece that ran in The Atlantic in October examined the excesses of the GMC Hummer EV for compromising safety. And now in its latest edition, the magazine ran a compelling story about the challenges of driving an electric vehicle and how those experiences “mythologize the car as the great equalizer.” Titled “The Inconvenient Truth About Electric Vehicles,” the story addresses the economics of EVs, the stresses related to range anxiety, the social effects of owning an electric car — as in, affording one — and the overarching need for places to recharge that car. Basically, author Andrew Moseman says that EV life isn't so rosy: “On the eve of the long-promised electric-vehicle revolution, the myth is due for an update. Americans who take the plunge and buy their first EV will find a lot to love Â… they may also find that electric-vehicle ownership upends notions about driving, cost, and freedom, including how much car your money can buy. "No one spends an extra $5,000 to get a bigger gas tank in a Honda Civic, but with an EV, economic status is suddenly more connected to how much of the world you get to see — and how stressed out or annoyed youÂ’ll feel along the way.” Moseman charts how a basic Ford F-150 Lightning electric truck might start at $55,000, but an extended-range battery, which stretches the distance on a charge from 230 miles to 320, “raises the cost to at least $80,000. The trend holds true with all-electric brands such as Tesla, Rivian, and Lucid, and for many electric offerings from legacy automakers. The bigger battery option can add a four- or five-figure bump to an already accelerating sticker price.” As for the charging issue, the author details his anxiety driving a Telsa in Death Valley, with no charging stations in sight. “For those who never leave the comfort of the city, these concerns sound negligible," he says. "But so many of us want our cars to do everything, go everywhere, ferry us to the boundless life we imagine (or the one weÂ’re promised in car commercials),” he writes. His conclusions may raise some hackles among those of us who value automotive independence — not to mention fun — over practicalities.

Recharge Wrap-up: Ford's "snowtonomous" Fusion Hybrid, Porsche eyes battery makers

Bosch and Panasonic are vying to be the battery supplier for Porsche's electric sports car based on the Mission E concept. While Bosch's costs may be higher, its solution would offer simpler logistics. Panasonic is already well established as a battery maker, providing the packs for the Porsche car's rival, Tesla. "We're in the final stage of making a decision," says Porsche CEO Oliver Blume, declining to comment on specific manufacturers. Neither Bosch nor Panasonic provided comment. Read more from Automotive News. Renault will supply a fleet of 150 Renault Zoe EVs for a smart solar charging project in Utrecht, Netherlands. The project involves the installation of 1,000 EV chargers powered by 10,000 photovoltaic panels. The Renault Zoes would be used as part of a carsharing program powered by the solar chargers. Renault and its partners will also implement a vehicle-to-grid system to provide energy during peak demand from the solar chargers and connected EVs. Read more in the press release from Renault. Ford has been testing an autonomous Fusion Hybrid prototype that is capable of driving itself in snowy conditions. Ford uses 3D mapping to scan the drive route. Its LiDAR laser mapping can even detect single falling snowflakes. It collects and processes up to 600 gigabytes of data per hour, comparing its environment to saved maps, a process that helps establish location more precisely than GPS. In addition to the LiDAR systems, the car is also equipped with cameras and radar to help it navigate. Eventually, the car could even be able to clean off its sensors when it detects loss of performance from ice and dirt. Read more in the press release below. FROM AUTONOMY TO SNOWTONOMY: HOW FORD FUSION HYBRID AUTONOMOUS RESEARCH VEHICLE CAN NAVIGATE IN WINTER DEARBORN, Mich., March 10, 2016 – Driving in snow can be a slippery challenge, with the potential for one blizzardy gust to white-out your field of view – a situation faced by the majority of people in the United States. So if self-driving cars are to become a reality – and they almost certainly will – they must be able to navigate snow-covered roads. In its quest to bring self-driving vehicles to millions of people around the world, Ford reveals six facts about its technology that allows for a car to drive itself in snow. 1. Mapping the way: Ford first creates high-resolution 3D maps using LiDAR technology to scan the area its autonomous vehicle will later drive in the snow.