HTML5 and the software engineer

HTML5 appears to have a number of benefits for consumers and car manufacturers. But what is often good for the goose is not necessarily good for the developer. Talking to the guys in the trenches is critical to understanding the true viability of HTML5.

Andy Gryc and Sheridan Ethier, manager of the automotive development team at QNX, pair up for a technical discussion on HTML5. They explore whether this new technology can support rich user interfaces, how HTML5 apps can be blended with apps written in OpenGL, and if interprocess communication can be implemented between native and web-based applications.

So without further ado, here’s the latest in the educational series of HTML5 videos from QNX.



This interview of Sheridan Ethier is the third in a series from QNX on HTML5.

Is HTML5 a good gamble?

As the consumer and automotive worlds continue to collide, HTML5 looks like a good bet. And not a long shot either. In fact, the odds are all automakers will eventually use it. But since the standard won’t be mature for some time yet, should you take a chance on it now? 

To answer this, Andy Gryc talks to Matthew Staikos of RIM. Matthew is the manager of the browser and web platform group at RIM, and has over 10 years of software development experience with a strong focus on WebKit for mobile and embedded systems. Matthew co-founded Torch Mobile, which was acquired by RIM for their browser technology.

Andy’s conversation with Matthew is the subject of the following video, the second in an educational series designed to get an industry-wide perspective on HTML5. 

This interview of Matthew Staikos is the second in a series from QNX on HTML5.

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:

One day I’ll be Luke Skywalker

Cyril Clocher

What happens when you blend ADAS with infotainment? Guest post by Cyril Clocher, business manager for automotive processors at Texas Instruments

As we all begin preparing for our trek to Vegas for CES 2015, I would like my young friends (born in the 70s, of course) to reflect on their impressions of the first episode of Lucas’s trilogy back in 1977. On my side, I perfectly remember thinking one day I would be Luke Skywalker.

The eyes of young boys and girls were literally amazed by this epic space opera and particularly by technologies used by our heroes to fight the Galactic Empire. You have to remember it was an era where we still used rotary phones and GPS was in its infancy. So you can imagine how impactful it was for us to see our favorite characters using wireless electronic gadgets with revolutionary HMIs such as natural voice recognition, gesture controls or touch screens; droids speaking and enhancing human intelligence; and autonomous vehicles traveling the galaxy safely while playing chess with a Wookiee. Now you’re with me…

But instead of becoming Luke Skywalker a lot of us realized that we would have a bigger impact by inventing or engineering these technologies and by transforming early concepts into real products we all use today. As a result, smartphones and wireless connectivity are now in our everyday lives; the Internet of Things (IoT) is getting more popular in applications such as activity trackers that monitor personal metrics; and our kids are more used to touch screens than mice or keyboards, and cannot think of on-line gaming without gesture control. In fact, I just used voice recognition to upgrade the Wi-Fi plan from my Telco provider.

But the journey is not over yet. Our generation has still to deliver an autonomous vehicle that is green, safe, and fun to control – I think the word “drive” will be obsolete for such a vehicle.

The automotive industry has taken several steps to achieve this exciting goal, including integration of advanced and connected in-car infotainment systems in more models as well as a number of technologies categorized under Advanced Driver Assistance Systems (ADAS) that can create a safer and unique driving experience. From more than a decade, Texas Instruments has invested in infotainment and ADAS: “Jacinto” and TDAx automotive processors as well as the many analog companion chips supporting these trends.

"Jacinto 6 EP" and "Jacinto 6 Ex"
infotainment processors

A unique approach of TI is our capability to leverage best of both worlds for non-safety critical features, and to provide a seamless integration of informational ADAS functions into existing infotainment systems so the vehicle better informs and warns the driver. We announced that capability at SAE Convergence in Detroit in October 2014 with the “Jacinto 6 Ex” processor (DRA756), which contains powerful CPU, graphics multimedia, and radio cores with differentiated vision co-processors, called embedded vision engines (EVE), and additional DSPs that perform the complex ADAS processing.

For the TI’s automotive team, the CES 2015 show is even more exciting than in previous years, as we’ve taken our concept of informational ADAS to the next step. With joint efforts and hard work from both TI and QNX teams, we’ve together implemented a real informational ADAS system running the QNX CAR™ Platform for Infotainment on a “Jacinto 6 Ex” processor.

I could try describing this system in detail, but just like the Star Wars movies, it’s best to experience our “Jacinto 6 Ex” and QNX CAR Platform-based system in person. Contact your TI or QNX representative today and schedule a meeting to visit our private suite at CES at the TI Village (N115-N119) or to immerse yourself in a combined IVI, cluster, megapixel surround view, and DLP® based HUD display with augmented reality running on a single “Jacinto 6 Ex” SoC demonstration. And don't forget to visit the QNX booth (2231), where you can see the QNX reference vehicle running a variety of ADAS and infotainment applications on “Jacinto 6” processors.

Integrated cockpit featuring DLP powered HUD and QNX CAR Platform running on a single “Jacinto 6 Ex” SoC.

One day I’ll experience Skywalker’s life as I will no doubt have the opportunity to control an intelligent and autonomous vehicle with my biometrics, voice, and gestures while riding with my family to the movie theater playing chess with my grandkids, not yet a Wookiee.

What’s HTML5 got to do with automotive?

There’s been a lot of noise lately about HTML5. A September 2011 report by binvisions shows that search engines and social media web sites are leading the way toward adoption: Google, Facebook, YouTube, Wikipedia, Twitter, and plenty more have already transitioned to HTML5. Some are taking it even further: Facebook has an HTML5 Resource Center for developers and the Financial Times has a mobile HTML5 version of their website.

It won’t be long before HTML5 is ubiquitous. We think automakers should (and will) use it. 

To elucidate the technology and its relevance, we’ve created a series of educational videos on the topic. Here is the first in that series. Interviews with partners, customers, and industry gurus will soon follow. 

This simple overview is the first in a series from QNX on HTML5. (Personally I like the ending the best.)

TI’s Jacinto 5 automotive processor selected for Audi's “MIB High” infotainment system

Well, it couldn't happen to a nicer technology partner. Yesterday, Texas Instruments announced that the QNX-based MIB High system, the next-generation infotainment platform for Audi vehicles, is the first automotive system to incorporate the TI Jacinto 5 automotive infotainment processor. According to the TI press release, the Jacinto 5 plays a key role in the system’s architecture, which consist of a multimedia applications unit and a highly integrated radio-and-car-control unit.

If you’re unfamiliar with the Jacinto 5, it’s an automotive-qualified multicore processor based on an ARM Cortex-A8 core. The processor integrates a variety of automotive peripherals and connectivity options.

QNX’s role in the MIB High was revealed in 2011, when e.solutions announced that QNX Software Systems had been chosen to supply the system’s OS and multimedia engine. See my blog post on that announcement, where I explain why the architecture of MIB High is so cool.

And if you’d like to check out the MIB High first hand, may I suggest you take one of these for a test drive.

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!

Seamless connectivity is for more than online junkies

As much as I’m not always enamored with sitting behind a computer all day, I find being off the grid annoying. Remember this email joke?

You know you’re an online junkie when you:
• wake up at 3:00 am to go to the bathroom and stop to check your email on the way back to bed
• rarely communicate with your mother because she doesn’t have email
• check your inbox. It says ‘no new messages,’ so you check it again 

Even though this joke circulated several years ago, it still strikes a chord. The big difference now is that there’s no longer a subculture of ‘online junkies.’ From the time we wake up in the morning to the time we go to bed, we all want to be connected — and that includes when we get behind the wheel. So to this joke I would add:

• resent driving because it means going off the grid

At QNX, we’re working toward a seamless experience where people can enjoy the same connectivity whether they’re texting their spouse from the mall or checking traffic reports while driving down the highway. See what I mean:



For more information about the technology described in this video, visit the QNX website.
 

A Porsche you could talk to

The third installment in the CES Cars of Fame series. Our inductee for this week: a very connected Porsche 911.

Paul Leroux

I have a confession to make. The day before QNX Software Systems unveiled this technology concept at car at 2012 CES, I leaked the news on the On Q blog. Mind you, the leak was unintentional. I had been editing a post that described the car and, instead of hitting Save, I hit Publish by mistake. Dumb, I know.

I immediately took down the post and informed my colleagues of the error. Fortunately, my RSS feed didn't give me away, and the launch, which had been strictly under wraps, went ahead as planned. But boy, did I feel stupid.

Now that I've got that off my chest, let's see what the hubbub was about. The car, based on a Porsche 911 Carrera, came equipped with an array of features built by the QNX concept team, including one-touch smartphone pairing, high-definition hands-free calls, rear-seat entertainment, and a digital instrument cluster.

So, you ready for a tour?

The car
Let's start with the exterior. Because man, what an exterior:



The instrument cluster
Once you got behind the wheel, the first thing you saw was the instrument cluster. But
this was no ordinary cluster. It could dynamically reconfigure itself — in response to voice commands, no less. It could even communicate with the navigation system to display turn-by-turn directions. And it was designed to honor the look-and-feel of the stock 911 cluster:



The head unit
To your right, you could see the head unit. Here is the unit's main screen, from which you could access all of the system's key functions:



And here's another screen, showing the system's media player:



The front-seat control of backseat infotainment
The Porsche also showcased how a head unit could offer front-seat control of backseat entertainment — perfect for when you need to control what your kids are watching or listening to:



The voice recognition
The Porsche was outfitted with cloud-based voice recognition, which let you enter navigation destinations naturally, without having to use artificial grammars. Check out this Engadget clip, taken at an AT&T event in New York City:



The car also included features that neither words nor pictures can capture adequately. But let me try, anyway:

One-touch Bluetooth pairing — Allowed you to pair a phone to the car simply by touching the phone to an NFC reader embedded in the center console; no complicated menus to wade through.

Text-to-speech integration — Could read aloud incoming emails, text messages, and BBM messages.

High-definition voice technology — Used 48KHz full stereo bandwidth for clear, high-fidelity hands-free calls.

The car also ran a variety of apps, including TCS hybrid navigation, Vlingo voice-to-text, Poynt virtual assistant, Weather Network, and streaming Internet radio from Pandora, Nobex, Slacker, and TuneIn.

The point
The point of this car wasn't simply to be cool, but to demonstrate what's possible in next-gen infotainment systems. More specifically, it was designed to showcase the capabilities of the QNX CAR Platform for Infotainment. In fact, it did such a good job on that count that the platform took home the 2012 CES Best of Show award, in the car tech category:

QNX-based nav system helps Ford SUVs stay on course down under

Paul Leroux

This just in: SWSA, a leading electronics supplier to the Australian automotive industry, and NNG, the developer of the award-winning iGO navigation software, have created a QNX-based navigation system for Ford Australia. The new system has been deployed in Ford Territory SUVs since June of this year.

To reduce driver distraction, the system offers a simplified user interface and feature set. And, to provide accurate route guidance, the system uses data from an internal gyroscope and an external traffic message channel, as well as standard GPS signals. Taking the conditions of local roads into account, the software provides a variety of alerts and speed-camera warnings; it also offers route guidance in Australian English.

The navigation system is based on the iGO My way Engine, which runs in millions of navigation devices worldwide. To read NNG's press release, click here.


SWSA's new nav system for the Ford Territory is based on the Freescale
i.MX31L processor, QNX Neutrino RTOS, and iGO My way Engine.
 

What if…

Imagine if your car could help you become more connected to friends and family — and to the road ahead. Enter a new video that peers into the not-so-distant future.

It blows my mind, but some people still see connectivity in the car as the enemy. They think that, the more connected the car, the more distracting and dangerous it will be. But you know what? Responding to their concerns is easy. I simply ask them what if.

For instance, what if connectivity helped you drive with greater situational awareness? What if it helped you sidestep traffic jams and axle-busting pot holes? What if it helped you detect a stop sign hidden behind a tree? And what if it helped you become more connected to the people important to you, as well as to the road and the cars around you?

When we talk connectivity at QNX, that’s the kind of connectivity we envision. It isn’t just about Bluetooth or Wi-Fi or LTE — that’s only the plumbing. Rather, it’s about keeping you in tune and in sync with your car, your environment, your business, your friends. Your life.

More QNX-powered cars and infotainment systems from 2011 CES

The second installment in our CES Cars of Fame series. Today, we look at several systems from the 2011 CES event, starting with this week's inductee, a BMW Z4.

Paul Leroux

I've led you astray — sort of. Last week I stated that the LTE Connected Car, the first QNX-powered technology concept car, appeared at 2011 CES. But I didn't mention that QNX technology was at the core of several other innovative vehicles and infotainment systems at CES that year.

So let me set the record straight. And the best place to start is the QNX booth at 2011 CES, where a BMW Z4 roadster was the front-and-center attraction.

BMW Z4 Roadster with ConnectedDrive
The Z4 wasn't a technology concept car, but a true production car straight off the dealer lot. It was equipped with the QNX-based BMW ConnectedDrive system, which offers real-time traffic information, automatic emergency calling, and a text-to-speech feature that can read aloud emails, appointments, text messages, and other information from Bluetooth smartphones. It's a cool system right at home in this equally cool cockpit:



Heck, the whole car was cool, from the wheels up:



Audi A8 with Google Earth
Mind you, the coolness didn't stop at the QNX booth. Just down the hall, Audi showcased an A8 sedan equipped with the QNX-based 3G MMI infotainment system, featuring Google Earth. This same model drove home with the 2011 Edmunds Breakthrough Technology award a short while later.

I don't have any photos of the Audi from the CES show floor, but if you head over to the On Q blog, you can see some snaps from an automotive event that QNX hosted in Stuttgart two months earlier. The photos highlight the A8's innovative touchpad, which lets you input destination names by tracing them with your finger.

Toyota Entune infotainment system
And now to another award-winning QNX-based system. Toyota Entune embraces a simple, yet hard-to-achieve concept: help drivers interact with mobile content and applications in a non-distracting, handsfree fashion. For instance, if you are searching for a nearby restaurant, Entune lets you ask for it in a conversational fashion; no need for specific voice commands.

You could tell the judges for the CNET Best of CES awards were impressed, because they awarded Entune first prize, in the Car Tech category — the first of three QNX-powered systems to do. QNX Software Systems went on to win in 2011 for its QNX CAR Platform and then Chevy won in 2012 for its MyLink system. Not too shabby.

A cluster of clusters
We've looked at just three of the many QNX-based automotive systems showcased at 2011 CES. For instance, QNX also demonstrated digital instrument clusters built by Visteon for the Land Rover Range Rover and for the Jaguar XJ sedan, below:



Freescale, NVIDIA, TeleNav, and Texas Instruments also got into the act, demonstrating QNX systems in their booths and meeting areas.

Do you have any memories of 2011 CES? I'd love to hear them.

Telematics China — closing out the year with a get-together in Shanghai

Guest post by Peter McCarthy of the QNX global partnerships team

Peter McCarthy

Is it November already? Time flies when you’re busy. And on the subject of flying, I’ll soon be on a plane to Shanghai, where our friends at Telematics China are hosting what promises to be a great automotive event from December 4 to 6. The organizers have been instrumental in bringing together companies in the industry and a great support to QNX with our own automotive events.

Back in August, QNX held an automotive summit in Shanghai. The success of this event owed a lot to partners like AutoNavi, a leader in the Chinese navigation market that is bringing its digital map content and navigation software to the QNX CAR Platform. The AutoNavi folks delivered a great presentation on the future of in-vehicle services and navigation, and I am sure we will continue these discussions when we meet at the Telematics China event.

When I scroll through the list of sponsors, exhibitors, and presenters at Telematics China, I know for sure my days and nights will be busy — but more importantly, filled with conversations with all the right people. So if you’re attending the event, please reach out to your QNX contacts and make time to meet. We look forward to seeing you there.

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About Peter
When he isn't talking on oversized mobile phones, Peter McCarthy serves as director of global partnerships at QNX Software Systems, where he is responsible for establishing and fostering partnerships with technology and services companies in all of the company's target industries.

The first-ever QNX technology concept car to hit CES

Paul Leroux

I bet you thought it was the Porsche. Or perhaps even the Bentley. But no, the first QNX-powered technology concept car to appear at CES was a digitally modded Prius — aka the LTE Connected Car. In fact, the car appeared at two CES shows: 2010 and 2011.

If you've never heard of the LTE Connected Car, it was a joint project of several companies, including QNX Software Systems and Alcatel-Lucent. The project members wanted to demonstrate how 4G/LTE networks could transform the driving experience and enable a host of new in-vehicle applications. This kind of thinking of may seem like old hat today, but when the car was created, telecom companies had yet to light up their first commercial LTE towers. The car was definitely ahead of its time.

One of the four infotainment
systems in the LTE Connected Car

Almost everyone saw the entertainment potential of equipping a car with a 4G/LTE broadband connection — the ability to access your favorite music, applications, videos, or social media while on the road had immediate appeal. But many people also saw the other value proposition this car presented: the ability for vehicles to continuously upload information they have gathered about themselves or surrounding road conditions, providing, in the words of WIRED's Eliot Van Buskirk, "a crowd-sourced version of what traffic helicopters do today." Awesome quote, that.

QNX provided the software foundation for the LTE Connected Car, including the OS, touchscreen user interfaces, media players for YouTube and Pandora, navigation system, Bluetooth connectivity, games, and handsfree integration. But why am I blabbing on about this when I could show you? Cue the screen captures...

Google local search
First up is Google local search, which displayed local points of interest to help drivers and passengers find nearby restaurants, gas stations, movie theaters, ATMs, hospitals, and so on. And because this was an LTE-enabled car, the system could fetch these POIs from a cloud-based database:



Pandora Internet radio
For those who prefer to listen to what they like, and nothing else, the car also came with a Pandora app:



Home monitoring and control
Are you the kind of person who forgets to engage the burglar alarm before going to work? If so, the car's home automation app was just the ticket. It could let you manage home systems, such as lights and thermostats, from any of the car’s touchscreens — you could even view a live video feed from home security cameras:



Vehicle diagnostics
Now this is my favorite part. If you look below, you'll see the car's main screen for accessing vehicle diagnostics. At the upper right is the virtual mechanic app, which retrieved OBD-II codes from the vehicle bus to display the status of your brakes, tires, power train, electrical systems, fluids, and so on. (The current QNX CAR Platform for Infotainment includes an updated version of this app.)



Low oil pressure... yikes!
The virtual mechanic wouldn't fix your car for you. But it could tell you when things were going south and help you take appropriate action — before the problem escalated. In this case, it's saying that the engine oil pressure is low:



What to do? Well, if you were mechanically challenged, you could tap the fuel pump icon at the bottom of the screen to display a map of local service stations. Or you could tap on the dealership icon (Toyota, in this case) and find directions to the nearest, well, dealership:



The virtual mechanic would also let you zoom in on specific systems. For instance, in the following screen, the user has tapped the brake fluid button to learn the location of the brake fluid reservoir:



On the subject of zooming, let's zoom out for a second to see the entire car:



Moving pictures
Screen captures and photos can say only so much. For the back story on the LTE Connected Car, check out this video, which digs into the "philosophy" of the car and what the project members were working to accomplish:

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An LTE Connected Car reader

• Scientific American — Hot Spot Hot Rod: The Internet Invades the Automobile
• Wired — Next-Gen Car Dashboard Talks to the Cloud
• Engadget — LTE Connected Car redefines the 'mobile' in mobile broadband
• John Day’s Automotive Electronic News — Alcatel-Lucent launches LTE Connected Car from QNX platform
• GIGAOM — LTE Connected Car: Dude, Where’s My Display?
• AutoSpies — Is THIS The Future Of Auto Tech?
• PCMag.com Blogs — What Do You Want in a Web-Connected Car?
• The Inquirer — Alcatel-Lucent talks up connected vehicles
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