The ultimate show-me car

The fifth installment in the CES Cars of Fame series. Our inductee for this week: a most bodacious Bentley.

It's one thing to say you can do something. It's another thing to prove it. Which helps explain why we create technology concept cars.

You see, we like to tell people that flexibility and customization form the very DNA of the QNX CAR Platform for Infotainment. Which they do. But in the automotive world, people don't just say "tell me"; they say "show me". And so, we used the platform to transform a Bentley Continental GT into a unique concept car, equipped with features never before seen in a vehicle.

Now here's the thing. This is the same QNX CAR Platform found in the QNX reference vehicle, which I discussed last week. But when you compare the infotainment systems in the two vehicles, the differences are dramatic: different features, different branding, different look-and-feel.

The explanation is simple: The reference vehicle shows what the QNX CAR Platform can do out of the box, while the Bentley demonstrates what the platform lets you do once you add your imagination to mix. One platform, many possibilities.

Enough talk; time to look at the car. And let's start with the exterior, because wow:



The awesome (and full HD) center stack
And now let's move to the interior, where the first thing you see is a gorgeous center stack. This immense touchscreen features a gracefully curved surface, full HD graphics, and TI’s optical touch input technology, which allows a physical control knob to be mounted directly on the screen — a feature that’s cool and useful. The center stack supports a variety of applications, including a 3D navigation system from Elektrobit that makes full use of the display:



At 17 inches, the display is big enough to display other functions, such as the car’s media player or virtual mechanic, and still have plenty of room for navigation:



The awesome (and very configurable) digital instrument cluster
The instrument cluster is implemented entirely in software, though you would hardly know it — the virtual gauges are impressively realistic. More impressive still is the cluster’s ability to morph itself on the fly. Put the car in Drive, and the cluster will display a tach, gas gauge, temperature gauge, and turn-by-turn directions — the cluster pulls these directions from the center stack’s navigation system. Put the car in Reverse, and the cluster will display a video feed from the car’s backup camera. You can also have the cluster display the current weather and current sound track:



The awesome (and just plain fun) web app
The web app works with any web browser and allows the driver to view data that the car publishes to the cloud, such as fluid levels, tire pressure, brake wear, and the current track being played by the infotainment system. It even allows the driver to remotely start or stop the engine, open or close windows, and so on:



The awesome (and nicely integrated) smartphone support
The Bentley also showcases how the QNX CAR Platform enables advanced integration with popular smartphones. For instance, the car can communicate with a smartphone to stream music, or to provide notifications of incoming email, news feeds, and other real-time information — all displayed in a manner appropriate to the automotive context. Here's an example:



The awesome everything else
I’ve only scratched the surface of what the car can do. For instance, it also provides:

• Advanced voice rec — Just say “Hello Bentley,” and the car’s voice recognition system immediately comes to life and begins to interact with you — in a British accent, of course.
   
• Advanced multimedia system — Includes support for Internet radio.
   
• Video conferencing with realistic telepresence — Separate cameras for the driver and passenger provide independent video streams, while fullband voice technology from QNX offers expanded bandwidth for greater telepresence.
   
• LTE connectivity — The car features an LTE radio modem, as well as a Wi-Fi hotspot for devices you bring into the car.

Moving pictures
Okay, time for some video. Here's a fun look at the making of the car:



And here's a run-through of the car's many capabilities, filmed by our friends at TI during 2013 CES:

Is this the most jazzed-up Jeep ever to hit CES?

The fourth installment in the CES Cars of Fame series. Our inductee for this week: a Jeep that gets personal.

Paul Leroux

It might not be as hip as the Prius or as fast as the Porsche. But it's fun, practical, and flexible. Better yet, you can drive it just about anywhere. Which makes it the perfect vehicle to demonstrate the latest features of the QNX CAR Platform for Infotainment.

It's called the QNX reference vehicle, and it's been to CES in Las Vegas, as well as to Detroit, New York City, and lots of places in between. It's our go-to vehicle for whenever we want to hit the road and showcase our latest infotainment technology. It even made a guest appearance at IBM's recent Information On Demand 2013 Big Data conference, where it demonstrated the power of connecting cars to the cloud.

The reference vehicle, which is based on a Jeep Wrangler, serves a different purpose than our technology concept cars. Those vehicles take the QNX CAR Platform as a starting point to demonstrate how the platform can help automakers hit new levels of innovation. The reference vehicle plays a more modest, but equally important, role: to show what our the platform can do out of the box.

For instance, we updated the Jeep recently to show how version 2.1 of the QNX CAR Platform will allow developers to blend a variety of application and HMI technologies on the same display. In this case, the Jeep's head unit is running a mix of native, HTML5, and Android apps on an HMI built with the Qt application framework:



Getting personal
We also use the Jeep to demonstrate the platform's support for customization and personalization. For instance, here is the first demonstration instrument cluster we created specifically for the Jeep:



And here's a more recent version:



These clusters may look very different, but they share the same underlying features, such as the ability to display turn-by-turn directions, weather updates, and other information provided by the head unit.

Keeping with the theme of personalization, the Jeep also demonstrates how the QNX CAR Platform allows developers to create re-skinnable HMIs. Here, for example, is a radio app in one skin:



And here's the same app in a different skin:



This re-skinnability isn't just cool; it also demonstrates how the QNX CAR Platform can help automotive developers create a single underlying code base and re-use it across multiple vehicle lines. Good, that.

Getting complementary
The Jeep is also the perfect vehicle to showcase the ecosystem of complementary apps and services integrated with the QNX CAR Platform, such as the (very cool) street director navigation system from Elektrobit:



To return to the question, is this really the most jazzed-up Jeep to hit CES? Well, it will be making a return trip to CES in just a few weeks, with a whole new software build. So if you're in town, drop by and let us know what you think.

Klocwork joins QNX automotive safety ecosystem

Paul Leroux

This just in: Klocwork, a leader in development tools for creating secure software, has become an ecosystem partner for the QNX Automotive Safety Program for ISO 26262.

Klocwork joins a roster of companies, including Elektrobit, Freescale, NVIDIA, and TI, who already support the program, which is designed to help automotive companies build digital instrument clusters, ADAS systems, and other products with functional safety requirements.

Klocwork offers Insight, a source code analysis tool recently certified to the ISO 26262 and IEC 61508 functional safety standards. Insight plugs directly into the QNX Momentics Tool Suite, allowing developers to detect security and safety vulnerabilities on the fly, and to ensure their code meets functional safety standards.

"Klocwork Insight provides real-time feedback during code development, immediately alerting developers to code that may conflict with the MISRA C/C++ coding standards required by ISO 26262," said Grant Courville, director of product management at QNX. "Better yet, Insight plugs into our IDE to provide a seamless and productive development experience."

The QNX Automotive Safety Program for ISO 26262 was created to help automotive companies building functional safety products to leverage QNX Software Systems’ proven competency in certifications, safety-critical systems, and automotive software design. Key elements of the program include an example safety case based on the QNX Neutrino RTOS Safe Kernel, guidelines on safety-critical design for real-time OS-based systems, a suite of professional services, and an ecosystem of supporting vendors who offer complementary hardware, tool chains, graphics technologies, and consulting services for safety critical systems.

Read the press release.

So many cores — what to do with them all?

Multi-core processors are clearly becoming the mainstream for automotive infotainment systems. TI’s OMAP processors and their automotive derivatives use dual A15 cores, Freescale's i.MX 6 boasts up to four A9 cores, and other companies also have multi-core architectures in production or on near-term roadmaps. Quad-core A15 processors are just around the corner. As a percentage of overall die area, the CPU core is relatively small, so SoC producers can lay down multiple cores with little impact on cost. GPUs, on the other hand, represent a large percentage of the die area and, as such, are typically instantiated only once per SoC.

Realistically, infotainment systems should no longer be CPU bound. In fact, when looking at leading-edge SoCs available today, many are asking what to do with all that extra CPU just sitting there, waiting to do something. At first blush, the more obvious areas to merge are infotainment and ADAS, or infotainment and digital instrument clusters. This is, at the highest level, pretty much a no-brainer so long as the safety requirements mandated for clusters and ADAS can be achieved.

Thing is, automotive safety standards like ISO 26262 require system-level certifications. As such, the entire system needs to be certified. Already a daunting task for a standalone ADAS system or digital instrument cluster, the problem can become unmanageable when you include the full infotainment stack.

Think about your car. Your cluster does a handful of operations whereas your infotainment system runs a full navigation system, voice recognition, multimedia, device connectivity, and, in the connected case, cloud services. People don't get frustrated trying to figure out how your cluster works (I hope), and they don't give up trying to figure out how fast the car is moving. The same cannot be said for many infotainment systems shipping today. Ask your mother to pair her cell phone to her car. I dare you! The complexity involved in attempting to certify a system that combines infotainment and cluster functions is orders of magnitude higher than certifying a cluster alone.

All is not lost, however. Virtualization offers an elegant way to isolate multiple systems running on a single multi-core SoC. By using virtualization you could seek certification on the cluster without burdening yourself with the infotainment problem and collapse two formerly discrete systems onto one SoC. You would save money and probably get a promotion to boot. Just one thing: there is still only one GPU on the die and both the infotainment system and the cluster rely heavily on that single GPU.

Enter Red Bend Software, a long-time QNX CAR Platform partner for FOTA. They have taken the challenge of virtualizing the GPU head-on and successfully demonstrated the QNX CAR Platform and a Crank Software-based digital instrument cluster running on dual displays driven by a single OMAP 5 at Telematics Munich. I saw it and was impressed with how snappy performance was on the infotainment side and how smooth the needles were (60+ fps) on the cluster.


Using virtualization to drive dual displays from a single TI OMAP 5 processor.

According to Red Bend, they have designed a GPU-sharing architecture that enables multiple guest operating systems to access hardware accelerators, including the GPU, providing isolation between the operating systems while having a minimal impact on overall performance (which probably isn't a huge deal considering how many CPU cores are going to be shipping on a single SoC in the near term). It sounds impressive, but seeing is believing.

Red Bend will next show this demo in the TI Suite at CES (N115 in the North Hall). If system consolidation is something that keeps you up at night, you should really stop by to see what they have done.

First impressions are the most lasting

Lynn Gayowski

Preparations for 2015 CES in January are in full swing at QNX Software Systems, both in and out of the garage. Thus, with fond memories in mind, the time has come to graduate our 2014 technology concept car, based on a Mercedes-Benz CLA45 AMG, to a CES Car of Fame. The Mercedes will always hold a special place in my heart, as it was the first technology concept car I got to experience hands-on since joining the QNX team.

If I were to describe this concept car with one word, I would choose "user-centric". (I love how hyphens can really help in these succinct situations.) We designed the infotainment system and digital instrument cluster with a vision to help drivers interact in new and seamless ways with their vehicles. This concept car is a great example of how QNX technology can enable a more natural user experience.

As we hum a few bars of Sarah McLachlan's classic I Will Remember You, let's look back at some highlights.

The first thing that catches your eye is the matte exterior and stylish lines, exuding just a soupçon of James Bond:



But let's get to the technology. At 21" by 7" the touch screen is a showstopper. It brings a rich, graphical interface to both driver and passenger. This is where you can really see the user-centric design, with options to control the infotainment system with the touch screen, physical buttons, a jog wheel, or voice commands:



We really wanted to use the car to highlight the flexibility of the QNX CAR Platform and how customers can easily modify features using the platform's pre-integrated technologies. A great example of this is the car's navigation system. The car actually has 4 different navigation solutions installed, demonstrating how automakers can choose a solution best suited for a particular geography or language. EB Street Director is featured in this photo:



The infotainment system may wow you, but don't forget about the cluster. The Mercedes has a dynamically reconfigurable digital instrument cluster that can display turn-by-turn directions, notifications of incoming phone calls, video from the car's front and rear cameras, as well as a tachometer, speedometer, and other virtual instruments, at a full 60 frames per second. The cluster can even notify you of incoming text messages on your phone. Simply push a steering-wheel button, and the system will read the message aloud, so you can keep your eyes on the road.



Another cool feature is the cluster's "virtual mechanic" which lets you access vehicle info like tire pressure, brake wear, and fuel, oil, and windshield fluid levels:



What car of the future would be complete without connectivity? A custom "key fob" app allows you to remotely access system maintenance information, control the media player, locate the car on a map, and perform a number of actions like starting the car and opening window. This cross-platform HTML5 app can run on any smartphone or tablet:



As an overall view of the Mercedes, one of my favourite pieces is this video by Sami Haj-Assaad of AutoGuide, where he takes a look at the design and features of the car. His closing quote really sums up the innovation showcased: "The infotainment industry is going through a huge upgrade, with QNX leading the charge."



I hope you enjoyed the 2014 QNX technology concept car. Watch for the reveal of our 2015 technology concept car January 6 at CES in Las Vegas!

Pimp your ride with augmented reality — Part I

The use of electronics is exploding in automotive. Just last week, Intel proclaimed that the connected car “is the third-fastest growing technological device, following smartphones and tablets.”

Ten years ago, you’d be hard-pressed to find a 32-bit processor in your car. Now, some cars have 4 or more 32 bitters: one in the radio, another in the telematics module, yet another in the center display, and still another in the rear-seat system.

Heck, in newer cars, you’ll even find one in the digital instrument cluster — the QNX-powered cluster in the Range Rover, for example. Expect to see a similar demand for more compute power in engine control units, drive-by-wire systems, and heads-up displays.


The Range Rover cluster displays virtual speedometers and gauges, as well as warnings, suspension settings, and other info, all on a dynamically configurable display.

What do most of these systems have in common? The need to process tons of information, from both inside and outside of the vehicle, and to present key elements of that data in a safe, contextually relevant, and easy-to-digest fashion.

The next generation of these systems will be built on the following principles:

• Fully integrated cockpits — Vehicle manufacturers see system consolidation as a way to cut costs and reduce complexity, as well as to share information between vehicle systems. For instance, your heads-up display could discreetly let you know who is calling you, without forcing you to take your eyes off of the road. And it could do this even if the smarts integrating your phone and your car reside in another cockpit component — the telematics module, say.
   
• Augmented reality — With all of the data being generated from phones, cloud content services and, perhaps more importantly, the vehicle itself, presenting the right information at the right time in a safe way will become a major challenge. This is where augmented reality comes in.

Augmented reality is a cool use of cameras, GPS, and data to create smart applications that overlay a virtual world on top of the real world. Here are some of my favorite examples:

AR Starbucks cups — Use your phone to make your coffee cup come alive:



AR Starwars — Blast the rebel alliance squirrels!



AR postage stamp — Add a new dimension (literally) to an everyday object:



And here are a couple more for good measure:

AR ray gun — Blast aliens around the house!

Wikitude AR web browser — Explore the world around you while overlaying social networks, images, video, reviews, statistics, etc.

Stay tuned for my next post, where I will explore how AR could enhance the driving experience for both drivers and passengers — Andrew.
 

A cool and innovative speedometer... for 1939

Paul Leroux

Earlier this week, I referred you to a whitepaper written by my colleagues Scott Pennock and Andy Gryc. In the paper, Scott and Andy argue that driver distraction is not, in fact, a problem of distraction, but of situational awareness, or SA. Boost a person's SA, and you improve their ability to drive safely.

But how, exactly, do you improve SA? The paper discusses various techniques, and I couldn't possibly do justice to all of them here. But one approach is to supplement the driver's eyes and ears with indicators and warnings, based on information from sensors, roadside systems, and other vehicles.

Here's an example: A system in your car learns, through cloud-based traffic reports, that the road ahead is slick with ice. It also determines that you are driving much too fast for such conditions. The system immediately kicks into action, perhaps by warning you of the icy conditions or by telling you to ease off the accelerator.

Too bad the engineers who designed the 1939 Plymouth P8 didn't have access to such technology. I'm sure they would have embraced it totally.

You see, they too wanted to warn drivers about excess speed. Unfortunately, the technology of the time limited them to creating a primitive, one-size-fits-all solution — the safety speedometer.

Color coded for safety
From what I've read, these speedometers switch from green to amber to red, depending on the car's speed. I've only seen still photos of these speedometers, but allow me to invoke the magic of PhotoShop and reconstruct how I think they work.

The safety speedometer has a rotating bezel, and embedded in this bezel is a small glass bulb. At speeds from 0 to 30 mph, the bulb glows green:



At speeds from 30 to 50 mph, the bulb turns amber:



And at over 60 mph, the bulb turns red:



Given the limitations of 1939 technology, the Plymouth safety speedometer couldn't take driving conditions or the current speed limit into account. It glowed amber at 30 mph, regardless of whether you were cruising through your neighborhood or poking down the highway. As a result, it was more of a novelty than anything else. In fact, I wonder if people driving the car for the first time would have focused more on watching the colors change than on the road ahead. If so, the speedometer may have actually reduce situational awareness. Oops!

Compare this to a software-based digital speedometer, which could take input from multiple sources, both within and outside the car, to provide feedback that dynamically changes with driving conditions. For instance, a digital speedometer could acquire the current speed limit from a navigation database and, if the car is exceeding that limit, remind the driver that they risk a speeding ticket.

That said, I have a soft spot for anyone who is (or was) ahead of their time. Some enterprising Plymouth engineers in the 30s realized that, with faster speeds, comes the need for even greater situational awareness. Their solution was primitive but it offered a hint of what, more than 75 years later, can finally become reality.
 

Japan update: ADAS, wearables, integrated cockpits, and autonomous cars

Yoshiki Chubachi

Will the joy of driving be a design criterion for tomorrow’s vehicles? It had better be.

A couple of weeks ago, QNX Software Systems sponsored Telematics Japan in Tokyo. This event offers a great opportunity to catch up with colleagues from automotive companies, discuss technology and business trends, and showcase the latest technology demos. Speaking of which, here’s a photo of me with a Japan-localized demo of the QNX CAR Platform. You can also see a QNX-based digital instrument cluster in the lower-left corner — this was developed by Three D, one of our local technology partners:



While at the event, I spoke on the panel, “Evolving ecosystems for future HMI, OS, and telematics platform development.” During the discussion, we conducted a real-time poll and asked the audience three questions:

1) Do you think having Apple CarPlay and Android Auto will augment a vehicle brand?
2) Do you expect wearable technologies to be integrated into cars?
3) If your rental car were hacked, who would you complain to?

For question 1, 32% of the audience said CarPlay and Android Auto will improve a brand; 68% didn't think so. In my opinion, this result indicates that smartphone connectivity in cars is now an expected feature. For question 2, 76% answered that they expect to see wearables integrated into cars. This response gives us a new perspective — people are looking at wearables as a possible addition to go with ADAS systems. For example, a wearable device could help prevent accidents by monitoring the driver for drowsiness and other dangerous signs. For question 3, 68% said they would complain to the rental company. Mind you, this raises the question: if your own car were hacked, who would you complain to?

Integrated cockpits
There is growing concern around safety and security as companies attempt to grow more business by leveraging connectivity in cars. The trend is apparent if you look at the number of safety- and security-related demos at various automotive shows.

Case in point: I recently attended a private automotive event hosted by Renesas, where many ADAS and integrated cockpit demos were on display. And last month, CEATEC Japan (aka the CES of Japan) featured integrated cockpit demos from companies like Fujitsu, Pioneer, Mitsubishi, Kyocera, and NTT Docomo.

For the joy of it
Things are so different from when I first started developing in-car navigation systems 20 years ago. Infotainment systems are now turning into integrated cockpits. In Japan, the automotive industry is looking at early 2020s as the time when commercially available autonomous cars will be on the road. In the coming years, the in-car environment, including infotainment, cameras and other systems, will change immensely — I’m not exactly sure what cars in the year 2020 will look like, but I know it will be something I could never have imagined 20 years ago.

A panel participant at Telematics Japan said to me, “If autonomous cars become reality and my car is not going to let me drive anymore, I am not sure what the point of having a car is.” This is true. As we continue to develop for future cars, we may want to remind ourselves of the “joy of driving” factor.

Ontario tech companies team up to target the connected car

To predict who will play a role tomorrow's connected vehicles, you need to look beyond the usual suspects.

When someone says “automobile,” what’s the first word that comes to mind? Chances are, it isn’t Ontario. And yet Ontario — the Canadian province that is home to QNX headquarters — is a world-class hub of automotive R&D and manufacturing. Chrysler, Ford, General Motors, Honda, and Toyota all have plants here. As do 350 parts suppliers. In fact, Ontario produced 2.5 million vehicles in 2012 alone.

No question, Ontario has the smarts to build cars. But to fully appreciate what Ontario has to offer, you need to look beyond the usual suspects in the auto supply chain. Take QNX Software Systems, for example. Our roots are in industrial computing, but in the early 2000s we started to offer software technology and expertise to the world’s automakers and tier one suppliers. And now, a decade later, QNX offers the premier platform for in-car infotainment, with deployments in tens of millions of vehicles.

QNX Software Systems is not alone. Ontario is home to many other “non-automotive” technology companies that are playing, or are poised to play, a significant role in creating new automotive experiences. But just who are these companies? The Automotive Parts Manufacturers Association (APMA) of Canada would like you to know. Which is why they've joined forces with QNX and other partners to build the APMA Connected Vehicle.

A showcase for Ontario technology.

The purpose of the vehicle is simple: to showcase how Ontario companies can help create the next generation of connected cars. The vehicle is based on a Lexus RX350 — built in Ontario, of course — equipped with a custom-built infotainment system and digital instrument cluster built on QNX technology. Together, the QNX systems integrate more than a dozen technologies and services created in Ontario, including gesture recognition, biometric security, emergency vehicle notification, LED lighting, weather telematics, user interface design, smartphone charging, and cloud connectivity.

Okay, enough from me. Time to nuke some popcorn, dim the lights, and hit the Play button:

QNX-powered Audi Virtual Cockpit drives home with CTIA award

Congratulations to our friends at Audi! The new Audi Virtual Cockpit, which is based on the QNX OS, has just won first prize, connected car category, in the 2014 CTIA Hot for the Holidays awards.

I’ve said it before and I’ll say it again: the Audi Virtual Cockpit is an innovative, versatile, and absolutely ravishing piece of automotive technology. But you don’t have to take my word for it — or the word of the CTIA judges, for that matter. Watch the video and see for yourself:



Created in 2009, the Hot for the Holidays awards celebrate the most desirable mobile consumer electronics products for the holiday season. The winners for this year’s awards were announced this afternoon, at the CTIA Super Mobility event in Las Vegas. Andrew Poliak of QNX Software Systems was on hand and he took this snap of the award:



Visit the CTIA website to see the full list of winners. And visit the Audi website to learn more about the Audi Virtual Cockpit.

QNX CAR 2 — the extended version

The world of video is a ruthless one; just as we posted the QNX CAR demo it was out of date.

But, hold on a minute. As I write this I realize it’s not the video world at all; it’s the software world that creates new technology at breakneck speed. And QNX certainly does its part.

The QNX CAR 2 application platform has come a long way in a matter of months. We needed to update the original video to keep pace with the technology but also to address customer demand for more detailed information.

So this video is a step-by-step demo – definitely not for the tire kicker. But if you really want details on what automakers and tier ones can achieve with QNX CAR technology, hit play.

The summer road trip of 2017 — Part I

Lynn Gayowski

Summer is the season for many things — ice cream, outdoor festivals, heat waves, more ice cream, and perhaps best of all, hitting the open road. 2017 is around the corner, and between now and then, automakers will introduce a bevy of new features that will make for a safer and more enjoyable summer road trip. In this two-part series, we’ll take a look at how these technologies will help transform your summer road trip.

Tunes for the road
A road trip without a soundtrack is a road trip I want no part of. I think we can all agree that a Britney Spears playlist is compulsory. Music has always been intimately connected to the driving experience (see the Highway Hi-Fi Phonograph below for proof) and it’ll be even more integrated in the cars of 2017 with fewer limits. 

The media sources that you depend on today — local drives, USB storage devices, smartphones, cloud services — will work seamlessly with your vehicle, allowing you and your passengers to enjoy any genre from any source. Conventionally constrained to your center stack, music meta-data will permeate all the screens of your car, even the instrument cluster.

And for the backseat DJs, they’ll be able to use apps on their mobile devices to control the music playing in the car, which just might make the oft-repeated passenger phrase “Can you skip to the next song? I don’t like this one,” obsolete. Of course, to minimize distraction, the driver will always maintain cabin-wide control of what’s playing, and how loud it’s playing. 

The context-aware cockpit
The road trip of years past was plotted on a paper map and required a navigator in the passenger seat; today’s passengers are relieved of these duties as navigation and route plotting have gone digital. But even with that convenience, having to divert your eyes from the road to the center stack can be a nuisance. The dashboard of 2017 will offer greater convenience with a driver centric-display that could blend navigation and digital cluster information all on one screen. These vehicles will be "context aware" and display different information depending on the environment. For instance, surround-view cameras could detect pedestrians or cyclists and provide a minimalist on-screen alert to minimize driver distraction. Similarly, the system may disable certain functionality when the driver is about to navigate a hairpin turn. If the vehicle “knows” there’s a challenge ahead related to road condition, visibility, local speed limits, traffic, or topographical information, it could display the appropriate context-relevant information to the driver. 

Staying mobile
By 2017, you’ll probably have a new smartphone and, regardless of the platform, it’ll be able to communicate with your car. Projection mode technologies will be commonplace and render your phone’s display and services onto your car’s center stack (one example is QNX-powered Audi’s MMI mobile media application framework). This integration will no doubt get even more advanced in the coming years, and with Apple’s CarPlay and Google’s Android Auto connectivity protocols taking form, your favorite apps will be as at home on your dash as they are in your hand. 

Your phone will also be able to control and monitor your car in new ways via the much-discussed, but sometimes nebulous, cloud. For instance, let’s say you find yourself at a behemoth rest stop and can’t remember the location of your car after indulging in the roadside cuisine. Your phone’s “key fob” app could tell you exactly where your car is — it could even let you check your oil and washer fluid remotely to see if your car is in shape to make it on the next of your leg of your trip. 

How is in-car technology playing a role in your current summer road trip? How do you want it to improve your future road trips? What’s your favorite road trip destination? (My personal favorite is Washington, DC) Stay tuned here for Part II, and to our QNX_Auto Twitter account and Facebook page for weekly discussions on what 2017 has in store for your road trip.

 

QNX-powered 2015 Audi TT named best-connected car

Is it innovative, beautiful, versatile, or just plain cool? I haven’t quite decided, so I’m thinking it’s all of the above. The QNX-based virtual cockpit in the 2015 Audi TT is a ravishing piece of automotive technology, and it brings driver convenience to a new level by integrating everything from speed and navigation to music and handsfree calling — all in a single, user-configurable display.

It seems I’m not the only one who's impressed. Because last week, 42,500 readers of “auto motor und sport” and “CHIP” chose the Audi TT as the industry's best-connected car. In fact, Audi took top honors in several categories, including navigation, telephone integration, sound system, entertainment/multimedia, and connected car.

To get an idea of what all the fuss is about, check out our video of the Audi TT’s virtual cockpit in action. We filmed this at CES earlier this year:



For more information on the award and the Audi TT, read Audi's press release.

QNX reference vehicle makes stopover at FTF Americas 2012

Fresh off Telematics Detroit, the QNX reference vehicle is on the road again. And this time, it’s headed to the Freescale Technology Forum (FTF) in San Antonio.

Have you seen photos of the vehicle? If so, you'll know it's a specially modified Jeep Wrangler. From the outside, the Jeep stills looks the same, but beneath the hood, something has changed. For the first time, the Jeep’s head unit and instrument cluster, both based on the QNX CAR 2 application platform, are using Freescale i.MX 6 processors. And what better place than FTF to show off this new processor support?

Closeup of Jeep's instrument cluster. See previous post for more photos of vehicle.

As before, the reference vehicle will showcase several capabilities of the QNX CAR 2 platform, including:

• auto-centric HTML5 framework
• integration with a variety of popular smartphones
• one-touch Bluetooth pairing with smartphones using NFC
• ultra HD hands-free communication
• DLNA support for phone- and home- based media
• tablet-based rear-seat entertainment
• reconfigurable digital instrument cluster
• Wi-Fi hotspot

The vehicle will also demonstrate several popular third-party technologies, including Pandora, Slacker, and TuneIn Internet radio; TCS navigation; Weather Network; Best Parking; and Vlingo/AT&T Watson voice recognition.

What, more demos?
The reference vehicle isn't the only place to catch QNX technology at FTF. QNX will also showcase:

• a 3D digital instrument cluster based on a Freescale i.MX 6 quad processor and the QNX Neutrino RTOS, and built with Elektrobit's EB GUIDE Human Machine Interface environment
 
• a complete dashboard, including head unit and digital cluster, based on the QNX CAR 2 platform
 
• demos for industrial controllers, medical devices, multi-core systems, and advanced graphics, all of which run on the QNX Neutrino RTOS and Freescale silicon

QNX at the podium
Did I mention? QNX experts will also in participate in several presentations and panels. Here's the quick schedule:

• The HTML5 Effect: How HTML5 will Change the Networked Car — June 19, 2:00 pm, Grand Oaks Ballroom A
 
• Using an IEC 61508-Certified RTOS Kernel for Safety-Critical Systems — June 20, 2:00 pm, Grand Oaks Ballroom P
 
• Embedded Meets Mobility: M2M Considerations and Concepts — June 20, 5:15 pm, Grand Oaks Ballroom E
 
• New System Design for Multicore Processors — June 21, 10:30 am, Grand Oaks Ballroom F

Visit the FTF website for details on these and other FTF presentations.

And if you're at FTF, remember to catch the QNX demos at pod numbers 1400 to 1405.
 

WIRED Autopia slips into driver's seat of QNX reference vehicle

Chances are, you've seen pictures of the new QNX reference vehicle. You may have even seen the "making of" video that QNX released a few days ago. But have you seen any video of the vehicle in action?

If not, check out this vid by Doug Newcomb of WIRED Autopia. Last week, at Telematics Detroit, Doug met up with Andrew Poliak of QNX for a tour of the vehicle and its various features, including a re-skinnable UI and voice-controlled Facebook integration. The camera was rolling, and here's what it caught:

The making of the QNX reference vehicle: Jeep Wrangler

Guest post from Nicole Forget of QNX Software Systems

Nicole Forget

Just one week ago, our new reference vehicle was revealed at Telematics Detroit 2012. The Jeep Wrangler features QNX’s digital instrument cluster, which is totally re-skinnable. In fact, the entire user interface of the head unit, which was created using HTML5, can also be re-skinned. The head unit supports loads of functions, too, including the virtual mechanic, which are outlined in an earlier post.

The following video gives you some insight into the hard work that was put into the making of the reference vehicle. Check it out!


 

Full disclosure: QNX releases first complete photos of new reference vehicle

"Any customer can have a car painted any color... so long as it is black."

We've come a long way since 1909, when Henry Ford penned this now-famous sentence. Not only can modern consumers pick the colors and features they want in a vehicle, but, in many cases, they can order them online. Getting the car you want, with the options you want, has never been easier.

Still, most forms of personalization are baked in. Once you order a car in, say, Barcelona Red (the color of my new Venza), it's hard to reverse the decision. But imagine the day when you can sit behind the wheel and watch your car's instrument cluster automatically reconfigure itself according to your personal preferences. And imagine if the cluster could do the same for everyone else who uses the car.

That's the kind of future QNX is working to make happen.

But you know what? I'm getting ahead of myself. I promised pictures of the new QNX reference vehicle, so let's look at them — especially since they offer tantalizing examples of what I was just talking about. :-)

The vehicle
Up to now, we've only released teaser images of the reference vehicle, with just enough detail to get people guessing as to what it might be. But enough with the mystery. Here's a full-on shot of the vehicle — a Jeep Wrangler Sahara — in all its off-road glory:


Yes, it's a Jeep

By the way, if you were one of the first 25 people in Canada or the US to guess it was a Jeep during our recent teaser campaign, congratulations! We'll identify the winners shortly.

The cluster
Once you get behind the wheel, the first thing you'll see is the digital instrument cluster. Let's zoom in so you can get a good look:



The cluster is implemented entirely in software and can reconfigure itself on the fly to display various types of information. Better yet, you can re-skin the cluster at the tap of a touchscreen button, like so:



As you can see, the cluster communicates with the head unit's navigation system to display turn-by-turn directions. Nice touch.

The head unit
Now look to your right, and you'll see the head unit. It supports a whack of functions (note my deft use of technical language), including one-touch pairing with Bluetooth smartphones, hybrid navigation, text-to-speech, natural speech recognition, streaming Internet radio, weather reporting, parking search, and too many other things to mention here.

In this photo, the head unit displays one of my favorite applications, the virtual mechanic. Intrigued? Check out my description of an early version of this app.



You know what else is cool? The unit's media player can post Facebook updates that list the song currently playing — but only when you tell it to, using voice commands. (Personal control over technology. I like that.) To view these updates later today and tomorrow while the Jeep is at Telematics Detroit, check out the QNX Facebook page.

Here's another photo of the head unit, showing its app tray:



The radio
What car would be complete without a radio? Mind you, in this case, "radio" includes support for streaming Internet radio from Pandora and TuneIn. And keeping in tune with the personalized listening experience these services offer you, the head unit's radio gives you a choice of skins:





In fact, almost every aspect of the head unit can be easily re-skinned. What's more, the underlying code remains the same: only the user interface, created in HTML5, changes from one skin to another. Which means automotive developers can create a single code base and re-use it across multiple vehicle lines. Doing more with less — what could be bad?

That's all I have for now, but before you go, check out the two press releases QNX issued this morning on the Jeep's personalization and Facebook features. Also, check out the QNX Flickr page for even more photos of the Jeep.