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Cars will run on Android

Renault-Nissan-Mitsubishi and Google have announced a technology partnership to embed the Android operating system in vehicles sold by the world’s leading automotive alliance, providing intelligent infotainment and customer focused-applications across multiple models and brands, scheduled to start in 2021. 

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Under the technology partnership, vehicles sold by the Alliance members in many markets will utilize Android, the world’s most popular operating system, and will provide turn-by-turn navigation with Google Maps, access to a rich ecosystem of automotive apps on the Google Play Store and have the ability to answer calls and texts, control media, find information, and manage vehicle functions with voice using the built in Google Assistant.

The Alliance, whose member companies last year sold 10.6 million vehicles in 200 markets, will integrate Google applications and services into infotainment and cloud-based systems to enhance the experience for customers of Renault, Nissan and Mitsubishi Motors brands. While a range of Alliance vehicles will share the Android platform, each brand will have flexibility to create a unique customer interface and specific features on top of the common Android platform.

The infotainment partnership forms part of Alliance moves to equip more vehicles with connectivity and cloud-based services as part of its Alliance 2022 mid-term plan. Today’s announcement, coinciding with the first anniversary of the mid-term plan, symbolizes the Alliance focus on next generation technology. Under the plan, Renault-Nissan-Mitsubishi is targeting increased sales of more than 14 million units a year by the end of 2022.

The plan also involves the launch of 12 new zero-emission electric vehicles, new autonomous-driving technologies and the ongoing rollout of the Alliance Intelligent Cloud.

The Alliance Intelligent Cloud will provide next-generation infotainment systems with secure connectivity by offering a platform to integrate data management, infotainment systems and to facilitate over-the- air upgrades and remote diagnostics in Alliance member-company vehicles.

By combining the latest technologies from the Alliance and Google, the Alliance member companies’ vehicles will have one of the most intelligent infotainment systems in the market.

Drivers and passengers will be able to leverage Google and Android’s capabilities to access an ecosystem that includes thousands of existing applications and an ever-expanding array of new apps. This integration, combined with the broad knowledge and a vibrant community of developers, will enable easy in-vehicle access to popular applications. The system will also be compatible with devices running other operating systems, such as Apple iOS.

Hadi Zablit, Senior Vice President of Business Development at Renault-Nissan-Mitsubishi, said, “Our partnership with Google will offer owners of our vehicles rich user experiences that are currently available only outside the vehicle or, to a limited extent, by connecting an Android device to supported vehicles. We are building powerful connected and seamless on-board / off-board experiences into our vehicles in addition to the features of Google applications and services that many users are accustomed to, including Google Maps, the Google Assistant and the Google Play Store.”

Kal Mos, Global Vice President of Alliance Connected Vehicles at Renault-Nissan-Mitsubishi, added, “With the integration of the Android platform into our infotainment systems, we are adding a new level of intelligence to our connected vehicles. In the future, the Google Assistant, which employs Google’s leading AI technology, can become the main way customers interact with their vehicles, hands-free. With Google Maps and the Google Assistant embedded in Alliance infotainment systems, our customers will have some of the most advanced AI based applications at their fingertips. And with invehicle access to the Google Play Store, our customers will enjoy an open and secure ecosystem of Android apps engineered for vehicles.”

Hiroshi Lockheimer, Senior Vice President of Platforms & Ecosystems at Google, said, “Google and Renault-Nissan-Mitsubishi share a common vision of delivering an intelligent, safe and seamless incar experience with apps and services that are familiar, upgradable and connected. We’re thrilled to partner with Renault-Nissan-Mitsubishi to bring the Google Assistant, Google Maps, and other popular apps via the Play Store and Android to drivers and passengers around the world.”

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Meet Aston Martin F1’s incredible moving data centre

The Aston Martin Red Bull Racing team faces a great deal more IT challenges than your average enterprise as not many IT teams have to rebuild their data center 21 times each year and get it running it up in a matter of hours. Not many data centers are packed up and transported around the world by air and sea along with 45 tonnes of equipment. Not many IT technicians also have to perform a dual role as pit stop mechanic.

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The trackside garage at an F1 race is a tight working environment and a team of only two IT technicians face pressure from both the factory and trackside staff to get the trackside IT up and running very fast. Yet, despite all these pressures, Aston Martin Red Bull Racing do not have a cloud-led strategy. Instead they have chosen to keep all IT in house.

The reason for this is performance. F1 is arguably the ultimate performance sport. A walk round the team’s factory in Milton Keynes, England, makes it abundantly clear that the whole organization is hell bent on maximizing performance. 700 staff at the factory are all essentially dedicated to the creation of just two cars. The level of detail that is demanded in reaching peak performance is truly mind blowing. For example, one machine with a robotic arm that checks the dimensions of the components built at the factory is able to measure accuracy to a scale 10 times thinner than a human hair.

This quest for maximum performance, however, is hampered at every turn by the stringent rules from the F1 governing body – the FIA. Teams face restrictions on testing and technology usage in order to prevent the sport becoming an arms race. So, for example, pre-season track testing is limited to only 8 days. Furthermore, wind tunnel testing is only allowed with 60% scale models and wind tunnel-usage is balanced with the use of Computational Fluid Dynamics (CFD) software, essentially a virtual wind tunnel. Teams that overuse one, lose time with the other.

In order to maximize performance within uniquely difficult logistical and regulatory conditions, the Aston Martin Red Bull Racing team has had to deploy a very powerful and agile IT estate.

According to Neil Bailey, Head of IT Infrastructure, Enterprise Architecture and Innovation, their legacy trackside infrastructure was “creaking”. Before choosing hyperconverged infrastructure, their “traditional IT had reached its limits”, says Bailey. “When things reach their limits they break, just like a car,” adds Bailey.

The team’s biggest emphasis for switching to HPE’s hyperconverged infrastructure, SimpliVity, was performance. Now, with “the extra performance of SimpliVity, it means it doesn’t get to its limits,” says Bailey. HPE SimpliVity has helped reduce space, has optimized processing power and brought more agility.

One of the first and most important use cases they switched to hyperconverged infrastructure was post-processing trackside data. During a race weekend each car is typically fitted with over 100 sensors providing key data on things like tyre temperature and downforce multiple times per second. Processing this data and acting on the insights is key to driving performance improvements. With their legacy infrastructure, Bailey says they were “losing valuable track time during free practice waiting for data processing to take place.” Since switching to HPE SimpliVity, data processing has dropped from being more than 15 minutes to less than 5 minutes. Overall, the team has seen a 79% performance boost compared to the legacy architecture. This has allowed for real time race strategy analysis and has improved race strategy decision making.

Data insights helps the team stay one step ahead, as race strategy decisions are data driven. For example, real time tyre temperature data helps the team judge tyre wear and make pit stop decisions. Real time access to tyre data helped the team to victory at the 2018 Chinese Grand Prix as the Aston Martin Red Bull cars pitted ahead of the rest of the field and Daniel Ricciardo swept to a memorable victory.

Hyperconverged infrastructure is also well suited to the “hostile” trackside environment, according to Bailey. With hyperconverged infrastructure, only two racks are needed at each race of which SimpliVity only takes up about 20% of the space, thus freeing up key space in very restricted trackside garages. Furthermore, with the team limited to 60 staff at each race, only two of Bailey’s team can travel. The reduction in equipment and closer integration of HPE SimpliVity means engineers can get the trackside data center up and running quickly and allow trackside staff to start work as soon as they arrive.

Since seeing the notable performance gains from using hyperconverged infrastructure for trackside data processing, the team has also transitioned some of the factory’s IT estate over to HPE SimpliVity. This includes: Aerodynamic metrics, ERP system, SQL server, exchange server and the team’s software house, the Team Foundation Server.

As well as seeing huge performance benefits, HPE SimpliVity has significantly impacted the work patterns of Bailey’s team of just ten. According to Bailey, the biggest operational win from hyperconverged infrastructure is “freeing up engineers’ time from focusing on ‘business as usual’ to innovation.” Traditional IT took up too much of the engineers’ time monitoring systems and just keeping things running. Now with HPE SimpliVity, Bailey’s team can “give the business more and quicker” and “be more creative with how they use technology.”

Hyperconverged infrastructure has given Aston Martin Red Bull Racing the speed, scalability and agility they require without any need to turn to the cloud. It allows them to deliver more and more resources to trackside staff in an increasingly responsive manner. However, even with all these performance gains, Aston Martin Red Bull Racing has been able to reduce IT costs. So, the users are happy, the finance director is happy and the IT team are happy because their jobs are easier. Hyperconvergence is clearly the right choice for the unique challenges of Formula 1 racing.

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Body-tracking tech moves to assembly line

Technology typically used by the world’s top sport stars to raise their game, or ensure their signature skills are accurately replicated in leading video games, is now being used on an auto assembly line.

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Employees at Ford’s Valencia Engine Assembly Plant, in Spain, are using a special suit equipped with advanced body tracking technology. The pilot system, created by Ford and the Instituto Biomecánica de Valencia, has involved 70 employees in 21 work areas. 

Player motion technology usually records how athletes sprint or turn, enabling sport coaches or game developers to unlock the potential of sport stars in the real world or on screen. Ford is using it to design less physically stressful workstations for enhanced manufacturing quality.

“It’s been proven on the sports field that with motion tracking technology, tiny adjustments to the way you move can have a huge benefit,” said Javier Gisbert, production area manager, Ford Valencia Engine Assembly Plant. “For our employees, changes made to work areas using similar technology can ultimately ensure that, even on a long day, they are able to work comfortably.”

Engineers took inspiration from a suit they saw at a trade fair that demonstrated how robots could replicate human movement and then applied it to their workplace, where production of the  new Ford Transit Connect and 2.0-litre EcoBoost Duratec engines began this month.

The skin-tight suit consists of 15 tiny movement tracking light sensors connected to a wireless detection unit. The system tracks how the person moves at work, highlighting head, neck, shoulder and limb movements. Movement is recorded by four specialised motion-tracking cameras – similar to those usually paired with computer game consoles – placed near the worker and captured as a 3D skeletal character animation of the user.

Specially trained ergonomists then use the data to help employees align their posture correctly. Measurements captured by the system, such as an employee’s height or arm length, are used to design workstations, so they better fit employees. 

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