Hello, Bentley: Using Sensory speech technology to create a natural user experience

By Bernard Brafman, Sensory Inc., and Justin Moon, QNX Software Systems

In-vehicle infotainment systems are becoming more and more complex, and integral to the overall driving experience. As this trend continues, it will become increasingly important to create systems that support multiple forms of user interaction. If you’re driving, the last thing you want to do is enter a destination manually, or search for your favorite artist in a playlist by using a touch screen, jog wheel, or other manual input method. Drivers want and require a user experience that is both simple and natural; integration of speech recognition technology goes a long way toward achieving that goal.

In fact, speech recognition is a key component of the latest QNX technology concept car, a modified Bentley Continental GT. The speech rec system lets you plot a route or select your favorite artist using natural speech, but it goes even further by letting you simply ask the car to perform an action. Leveraging Sensory’s FluentSoft SDK, more specifically the TrulyHandsfree^TM Voice Control technology, the QNX concept development team implemented keyword spotting techniques to interact with the vehicle.

So how does this work? Well, let’s say you’re in Vegas and need directions to the Wynn Casino. To engage the cloud-based Watson speech system, you simply say “Hello Bentley” — no need to push a button. You then complete the request by saying “Take me to the Wynn Casino.” FluentSoft, along with the architecture of the advanced speech recognition system included in the QNX CAR platform, allowed the team to create this seamless, easily implemented, and well-executed voice interaction experience.


When you say “Hello Bentley,” the QNX concept car displays a visual prompt at the top of the screen, indicating that the speech rec system is now listening for natural speech or directed commands.

Multiple triggers
The team plans to further utilize Sensory technology in future concept car releases. The current implementation has the single “Hello Bentley” trigger, which engages the speech system. But TrulyHandsfree Voice Control supports multiple active triggers as well as a robust recognition vocabulary to create a rich command-and-control user experience that doesn’t require prompts or pauses. Thus, it’s possible to create a hybrid system that is seamless and transparent to the user. For instance, “Hello Bentley air 68 degrees” or “Hello Bentley what time is it in Tokyo?” can both be executed flawlessly, regardless of which speech rec system is engaged.

A matter of choice
For an even more personalized experience, this technology can allow drivers to create their own custom trigger with a simple one-time enrollment process that verifies their identity as a voice password or identifies one of several previously enrolled. This creates a custom experience not only by letting you choose your own trigger phrases (come on now, who hasn’t named their car at some point?), but also by recalling individual preferences such as seat position, steering wheel position, and multimedia presets.

Look for these enhanced features in concept cars to come!

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Bernard Brafman is vice president of business development for Sensory, Inc., responsible for strategic business partnerships. He received his MSEE from Stanford University. Contact Bernard at bbrafman@sensoryinc.com

Justin Moon is a global technical evangelist for the automotive business development team at QNX Software Systems.

Pandora interview: Using HTML5 to deliver content to the car

At CES this year, our own Andy Gryc had a chance to sit down with Tom Conrad, CTO at Pandora, a long-time QNX CAR platform partner. Pandora is already in 85 vehicle models today and continues to grow their footprint, not only in automotive but in consumer as well.

Take a couple minutes to hear Tom's perspective on standardizing on HTML5 across markets and to get a glimpse of the future of Internet radio in automotive. And make sure you watch the whole thing — there's some fun outtakes at the end.

Making the growing number of connected cars continuously better

Guest post by Yoram Berholtz, Director of Market Adoption, Red Bend Software

More and more car manufacturers are implementing over-the-air software updates as a way to improve functionality, fix software defects, and guarantee a user experience that is continuously better. Car manufacturers GM (OnStar) and Daimler (MBRACE 2) have been leaders in recognizing the value of over-the-air updates for improving their infotainment systems. For example, GM recently updated the Bluetooth technology in OnStar to support late model smartphones.

The ability to update the infotainment system even manually is an improvement over requiring car owners to visit the dealership every time a new software update is available. As an example, Ford recently launched a program for consumers to update their own MyFord Touch system by mailing Ford owners a USB drive loaded with the appropriate software updates. However, many consumers view manual updates as bothersome and complicated, which means some systems simply don’t get updated. Today’s car owners expect their infotainment systems to have the same user experience as their mobile devices, and that means performing software updates over-the-air.

Scope and scale
According to ABI Research, there will be 210 million connected cars by 2016, and together with the ability to tether the smartphone to the infotainment system, the main enabler for doing over-the-air update is there: connectivity.

The updating solution must have scope and scale. Scope is the ability and the flexibility to update all of the memory including the user and system space with full or discrete components. As well, the solution must scale to manage millions of updates without failure and with the highest security possible. This, for example, would enable users of the QNX CAR application platform to update not only the QNX CAR software but also individual applications such as Pandora or the Weather channel.

In the mobile industry, where over-the-air software updating is a well-established practice, manufacturers and service providers realize many benefits:
 

• Cost reduction — Over-the-air software updates have reduced warranty costs
   
• Update success rate — Over-the-air software updates deliver the highest success rate
   
• Faster updates — Sending only the code that is different between the original software and the update (often called the delta) is faster and uses less bandwidth
   
• Customer satisfaction — A fast and automatic over-the-air process eliminates the need for the consumer to go to the dealer

A holistic solution
The mobile industry has enjoyed these benefits for some time. The automotive industry needs over-the-air updating even more so because the infotainment system includes millions of lines of code and updating this software requires a holistic solution that can manage the whole software life-cycle.

Red Bend Software has integrated its vRapid Mobile® update technology, which exists in more than 1.6 billion devices, into the QNX CAR platform. This enables car manufacturers and Tier 1 providers the flexibility to create an over-the-air update strategy that is optimized for infotainment systems and also for other embedded systems in the car. Today, infotainment systems are central in the car cockpit experience. These systems contain not only the QNX CAR 2 platform but also a variety of applications. Applications for the auto industry are not like applications for mobile devices. Applications for the auto industry have been modified in order to meet the car environment and have more voice activation and larger buttons so the driver isn’t distracted.

Car manufacturers are looking at their infotainment systems as product differentiators and as a valuable asset to generate revenues after the sale. The automobile industry doesn’t want Over-the-Top companies controlling the delivery channel to the infotainment system and weakening automotive brands. With a holistic Firmware Over-the-Air (FOTA) solution, car manufacturers can guarantee ownership of the infotainment firmware and applications, increasing the consumers’ perceived value through a much stronger brand.

Not if, but when
No longer is the auto industry asking whether or not to perform over-the-air updates. Now car manufacturers and tier one suppliers are asking how often and when should updates be provided during the life-cycle of the infotainment system.

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Yoram Berholtz is the Director of Market Adoption at Red Bend Software, the market leader in Mobile Software Management. Mr. Berholtz is responsible for working with mobile operators and device manufacturers to help them increase and improve their usage of over-the-air software updating. In addition, he has responsibility for developing partnerships and go-to-market strategies in the Automotive and Connected Device markets, and oversees the Red Bend Certified™ Interoperability program. Mr. Berholtz has experience in engineering, product management and partner management with an emphasis on mobile communications technologies, having worked at Motorola, Pelephone, ECI Telecom, Schema, Intel and Marvell.

Creating HTML5 apps for the car

Adding a downloadable app capability to the car isn't just a matter of bolting consumer-grade technology onto an automotive hardware platform, dusting your hands, and calling it a day.

Apps should be integrated into the vehicle experience, which means they need access to vehicle resources. But you must carefully control that access: the apps should be isolated in their own environment to protect the rest of the car software. Most of all, the apps need to conform to safe driving practices, which typically entails a re-write of the user interface.

Still, we should leverage as much as possible from the mobile world. That’s where the real innovation happens; the mobile community provides a much bigger pool of fresh ideas than automakers could ever build by themselves. And the best tools and libraries are focused on mobile development.

That’s why QNX Software Systems is building the best of both: an application tool that draws heavily from mobile, but is adapted to the car. It's provisionally named the HTML5 SDK for the QNX CAR application platform and, while it isn't yet available to the public, beta versions are now available for QNX CAR platform customers.

For a preview of what we’ll be rolling out, check out this video:

Making your car a first-class citizen of the Web

Tina Jeffrey

Anyone who follows the latest ongoings of the Worldwide Web Consortium (W3C) may have heard today’s news: the launch of the Automotive and Web Platform Business group. We live in a connected world, and let’s face it, many of us expect access to our favorite applications and services while on the road. I see the formation of this W3C group as a huge step in the pursuit of marrying web technology and the automobile.

The business group will bring together developers, OEMs, automotive technology vendors — many of who, like QNX, were part of Web and Automotive Workshop held last November. The group allows us to continue the discussion and to define a vehicle data API standard for enabling automotive services via the Web. And this is just the start of greater things to come: standards for OTA (over-the-air) software updates, driver safety, security, and seamless integration of smart phones and tablets.

As a member of the QNX automotive team, I second my colleague Andy’s enthusiasm in the announcement in saying we’re extremely excited to be part of this group and the process of helping to define these standards for the industry.

Check out the W3C press release.

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Tina is an automotive product marketing manager at QNX Software Systems

An (info)graphic look at self-driving cars

If I were in the insurance industry, I'd be following the development of autonomous cars with keen interest. Think about it: all those cars will have to be insured, but they will probably get into fewer accidents (and incur fewer insurance settlements) than conventional vehicles. That could be good for business as well as for safety.

So why am I bringing this up? Because InsuranceQuotes.com has come up with an infographic on autonomous cars, and it's a doozy. (Trivia dep't: Some believe that the expression "it's a doozy" was coined by the legendary automaker Duesenberg, as part of a campaign to promote its vehicles. Others disagree. I thought you'd want to know.)

Kidding aside, the infographic does a nice job of summarizing the potential benefits of self-driving vehicles, including greater safety, faster traffic flow, reduced fuel wastage, and increased mobility for people with physical handicaps.

Of course, if these benefits are borne out, we will all have to come to terms with the inevitable conclusion: computers do a better job of driving than humans. If you can get comfortable with that, you should survive the year 2040 with a minimum of future shock.



Infographic from Bankrate Insurance’s InsuranceQuotes.com

First look: HTML5 SDK for the QNX CAR platform

Whenever I hear the word “ripple,” I think of ice cream: butterscotch ripple, chocolate ripple, lemon ripple, and (yum) strawberry ripple. Well, the video I'm about to show you isn’t about ice cream, but it is about something that’s just as cool and just as sweet: the Ripple mobile environment emulator.

Ripple already supports multiple platforms, such as BlackBerry 10 and Apache Cordova, allowing developers to preview how their apps will look and function on a variety of mobile devices. And now, thanks to extensions provided by the QNX CAR development team, it will also emulate how an app looks and performs in a vehicle infotainment system.

Simply put, the same tool that helps app developers target mobile platforms will also help them target the car.

QNX Software Systems will offer this modded version of Ripple as part of the HTML5 SDK for the QNX CAR platform. The goal of the SDK is simple: to help mobile developers and automakers work together on creating apps for in-vehicle infotainment systems.

If you’re a developer, you’ll be able to use the Ripple emulator and its associated Web Inspector to perform JavaScript debugging, HTML DOM inspection, automated testing, and screen-resolution emulation, all from the convenience of a web browser. You’ll also be able to modify your apps and view the results without having to recompile — simply edit your source code and hit refresh in the browser. You’ll even be able to perform remote debugging on the evaluation board or final hardware used by the automaker, again from the same browser environment.

Enough from me. Let’s get the complete scoop from my colleague Andy Gryc:

Designing interfaces from the outside in

User interfaces are a pet peeve of mine.

I’m one of those people whose VCR always blinked 12:00. Not because I couldn’t figure it out but because I resented that I had to.

Basically, I have neither the time nor the inclination to read manuals. If I’m paying good money for a consumer-facing product then it better not require an engineering degree to use it.

Not surprisingly, then, I think UI design is every bit as important as product; maybe even more so. Because if your user experience sucks, make no mistake; I will be walking and talking to your competitors.

It wasn’t until I entered the glamorous world of software development that I came to the following conclusion: Interfaces are complicated because development tools require an engineer (or similarly brilliant individual) to use them.

Of course this is a sweeping statement and I’ll gladly debate it but the point is this: Someone with unique skills and knowledge about user-centric design should be creating interfaces. Not someone who knows the product from the inside out.

I know in a traditional model this can create a lot of churn but companies like Crank Software have come up with a way to decouple the roles of embedded engineer and UI designer, allowing them to work in parallel while focusing on their individual core competencies.

I spoke to several members of the QNX concept development team when they were heavily embroiled in creating the latest technology concept car. It was obvious when talking to the engineers and the UI designers that Crank’s Storyboard made both jobs that much easier and the process a whole lot quicker. The end result, achieved in a very short time frame, speaks for itself.

This is great news for people like me who curse like sailors whenever using a remote, microwave, GPS, treadmill, camera, and so on. Indeed, I'm counting on teams like QNX and Crank to ensure the digital car is an enjoyable and intuitive  experience. If not, I do know who I'm gonna call.

The 10 qualities of highly effective hands-free systems

The first time I saw — and heard — a hands-free kit in action was in 1988. (Or was it 1989? Meh, same difference.) At the time, I was pretty impressed with the sound quality. Heck, I was impressed that hands-free conversations were even possible. You have to remember that mobile phones were still an expensive novelty — about $4000 in today’s US dollars. And good grief, they looked like this:



It’s almost a shock to see how far we’ve come since 1988. We’ve become conditioned to devices that cost far less, do far more, and fit into much smaller pockets. (Though, admittedly, the size trend for smartphones has shifted into reverse.) Likewise, we’ve become conditioned to hands-free systems whose sound quality would put that 1998 kit to shame. The sound might have been okay at the time, but because of the contrast effect, it wouldn’t pass muster today. Our ears have become too discerning.

Which brings me to a new white paper from Phil Hetherington and Andrew Mohan of the acoustics team at QNX Software Systems. Evaluating hands-free solutions from various suppliers can be a complex endeavor, for the simple fact that hands-free systems have become so sophisticated and complex. To help simplify the decision process, Phil and Andrew have boiled the problem down to 10 key factors:

• Acoustic echo cancellation
  
• Noise reduction and speech reconstruction
  
• Multi-channel support
  
• Automatic gain control
  
• Equalization
  
• Wind buffet suppression
  
• Intelligibility enhancement
  
• Noise dependent receive gain
  
• Bandwidth extension
  
• Wideband support

Ultimately, you must judge a hands-free solution by the quality of the useful sound it delivers. By focusing on these 10 essentials, you can make a much sounder judgment (pun fully intended).

Recently, Electronic Design published a version of this paper on their website. For a longer version, which includes a decision checklist, visit the QNX download center.

SE Automotive (NIGERIA)

We have a staunch dedication to design quality, with design being defined as fitness for purpose. Today, a car that is fit for its purpose must achieve and surpass the competition on 3 specific quality targets:

• Aesthetic Value
• Mechanical durability
• Functional relevance

These are the cornerstones of the SE Automotive brand. In order to build this brand, SE Automotive must follow a process of product and process development. This involves beginning with a low volume product, which inevitably means a high price and exclusivity.

Segun Akin-Olugbade's company webpage.

http://www.secars.com.ng

Segun Akin-Olugbade (CEO/Director of Development) is the brain behind SE Automotive, and responsible for a large part of the set up strategy of the organisation. He is also responsible for the design of the SE Dau, the company’s first car, and the quarter scale SE Dau Prototype. Segun has experience in automotive design and engineering from Perei Engineering (UK) Limited, where he worked as a Concept Development Engineer. He also engaged in a number of live, industry design projects at Coventry University, and Loughborough University in the UK, where he obtained a BA in Automotive Design, and a BEng in Automotive Engineering respectively.

Segun’s vision is for an industrialized Nigeria, supported in large part by a sustainable automotive industry. In addition to creating a formidable automotive business, Segun is also looking to pioneer skills growth in advanced automotive design and engineering development, by introducing state of the art methods of Computer Aided Design (CAD) and Manufacture (CAM). In addition to putting Nigeria on the automotive development map, this will give engineers a broader range of skills, which they can use to create opportunities for themselves by innovating in their respective environments.

Source (http://www.changemakers.com)

Tanzania Automotive technology center (TANZANIA)

Tanzania Automotive Technology Centre (TATC). Established with an idea of creating a Centre of excellence in Tanzania to advance technology innovations, with the ultimate aim of attaining self reliance in technology relevant to the economic and social well-being of our country.

TATC was established in 1985 by a presidential decree, as a Research and Development Government Institution under the Ministry of Defence and National Service. The Centre is wholly owned by the Government of the United Republic of Tanzania.

Establishment Purpose

To create a Centre of Excellence in Tanzania to advance technological innovations, with the ultimate aim of attaining self reliance in technology relevant to the economic and social well being of the country.

Building of TATC

TATC was built through heavy Government investment , leading to;

• Technology acquisition through ‘technology transfer initiatives’ between Timoney Technology Ltd of the republic of Ireland and the Government of the United Republic of Tanzania.

• Construction of the TATC technology infrastructure from a green field

Principal Functions of TATC

To adapt existing engineering technology to alleviate some of the existing problems in transport, agricultural machinery and industry (implementation or pursuit of this function results into adapted or reverse engineered technologies)

To design and develop for production, vehicles, plant and machinery suited to the needs of Tanzania. (implementation or pursuit of this function results into TATC developed technologies).

To conduct research in materials for use in field of mechanical engineering (Material research, metal plastics, rubber, composites.)

To provide consultancy services in the fields of electro-mechanical engineering (industrial consultancy services)

To act as a high technology training Centre.

To conduct quality assurance of land equipment and machinery purchased by the Government.

To undertake any special engineering tasks as directed by the Government

 Source (TATC)  http://www.tatcnyumbu.org

Mobius 2 (KENYA)

  

Mobius Two omits many non-essential features while maintaining essential functionality. It has already been driven over 2,500 Kilometres around Kenya on varied terrain and proved its rugged capability.

Mobius Two is designed for driving on rough African roads. The body has a 35cm ground clearance, rugged integrated skid plate and large tyres. This is combined with the power to weight ratio of a 4x4 for optimum off-road performance.

Mobius Two is versatile. The body and suspension are capable of transporting large or heavy loads long distances. The rear fold-up seats can be configured for a total of six or eight persons; they are removable, leaving a flat cargo space comparable to a pickup truck. Mobius has a rated rear load of 500kg.

Lasting structural rigidity is ensured by the tubular steel chasis, which incorporates design elements of high perfomance and racing vehicles. Aluminium honeycomb crumple zone bumpers absorb impact forces in the event of a collision.

Mobius uses proven components and is constructed so that parts can be easily serviced by mechanics. Repairs to the steel frame can be carried out using a simple welding procedure.

Source Mobius motors http://mobiusmotors.com

Nigerian woven car body design (NIGERIA)

The cane-made car above is a display of creativity and ingenuity at its peak, as the Peugeot pick-up was woven with cane from the roof, to the bonnet, bumpers, and down to the rims of the tyres!

A middle aged man, tall who introduced himself as Mr Obaniyi Adeoye Ojo who is responsibille for the re-designing of the Peugeot pick-up      said he just wanted to do  something unique and promote Nigerian culture the more.

Very unique I must say!

Source: http://www.ghanacrunch.com/2012/photo-nigerian-man-makes-car-with-woven-cane/#ixzz2IvwJUqZb

Team Nigeria in motorsports debut (NIGERIA)

 

Could motorsports become a major industry in football-obsessed Nigeria? It will be if one Nigerian businessman has his way. 

 London-based entrepreneur Ribi Adeshokan has entered his country into the lavish and highly-competitive world of car racing and has ambitious plans to drive African motorsport and build a multi-million dollar racing industry on the continent.

Called Nigeria Racing Eagle (NRE), the team says it hopes to compete at major motor racing events over the next few months, including the FIA GT3 series and sports car endurance races.

"My philosophy is whatever I want to do, I go for the best," Adeshokan, team principal and owner of NRE said Monday, moments after unveiling a green and silver Audi R8 LMS as the team's car at the Africa Village, a London Olympics exhibition site designed to highlight the continent's cultural, artistic and sport assets.

Adeshokan says his team will proudly "fly the flag of Africa," being the first Nigerian racing team to represent the continent at world motorsports.

Source (CNN) 

Image gallery on the link below

http://vivacitypr.blogspot.com/2012/04/team-nigeria-unveil-their-brand-new.html

Nigerian undergraduates win world motorsport competition (NIGERIA)

Nigerian undergraduates (christened The NUTA_BOLTS Team) who are currently studying for a various Engineering degrees at the Anambra State University were Nigeria’s sole representative at the annual event whose 2012 series took place in Silverstone Circuit, Northampton, UK. Six other African universities (five from Egypt and one from South Africa) also participated in the competition the competition that drew contestants from 222 universities around the globe.

The Formula Student is an educational motorsport competition, run by the Institution of Mechanical Engineers (IMechE), in partnership with various well-known companies in the industry. It promotes careers and excellence in engineering, by challenging university students from across the globe to design, build, develop, market and compete as a team with a small single sitter racing car. It provides the students with a real-life exercise in design and manufacture and the business elements of automotive engineering. It teaches them all about team work, working under pressure and to tight timescales. It demands total commitment, lots of late nights, and many frustrations and challenges along the way, but the net result is the development of highly talented young engineers.

The competition starts at the beginning of the university year when teams start to design their cars. They are to assume that a manufacturing firm has commissioned them to produce a prototype car for the non-professional autocross or sprint racer sales market with the intention of selling one thousand units.  To encourage innovation, there are very few restrictions on the overall vehicle design. Successful teams are those who produce a car that is not only fast and reliable, but also low in cost and easy to maintain. The car’s marketability is also enhanced by other factors such as aesthetics, driver comfort and the use of common parts.
The competition offers team the opportunity to undertake real-life challenges and logistics, and develop the skills they will need when they go on work in industry.
For the NUTA_BOLTS boys whose design was judged the 7th Overall Best, fame didn’t just come. They have been working laboriously since 2008 forging seemingly trivial but ingenious designs. The first design they embarked on then was that of a unique Nut and Bolt which gave them the name (The Nuta_Bolts). They went further designing many other components like the key-holder-opener using the conventional lathe machine, they also modeled the speed cone of a lathe machine and later designed a miniature camera. They were on plans to designing and producing a multiple Grinding Machine when the IMechE team visited their school.

Twenty one in number, the team, whom Professor Bamiro (former Vice Chancellor of the University of Ibadan) suggests would make good technopreneurs is armed with strong willed and motivated students from the fields of Mechanical Engineering, Architecture, Electrical & Electronics Engineering, Civil Engineering and Chemical Engineering organizing themselves as a modern company.

The team according to team Leader, Onyenanu Ifeanyichukwu “has already kicked off preparation module to build the car and race it in Silverstone by July, 2013.”
As contained in the communiqué issued at the end of the 21st COREN Assembly where the NUTA_BOLTS team presented a lecture, the government has been “requested to financially support the team to enable them develop, fabricate and commission the race car”.

 (Source: The Engineering Network)

Meet the QNX concept team: True Nguyen, UX designer

We continue our spotlight on the QNX concept development team with True Nguyen, the team's user experience designer.

We interviewed True just prior to CES 2013, and she was hoping that people's impressions of the latest QNX technology concept car would be as fantastic as hers. True's love of cars stems back to her childhood, and that really comes out in the interview.

If you haven't had a chance to meet the other team members, you can read their stories here.

Next up, we'll interview Alexandre James to get his impressions of the Bentley and the buzz from CES 2013.

Our best CES yet

Anecdotes and observations from the QNX booth at 2013 CES

As a wrap-up to last week’s Consumer Electronics Show, I would love to regale you with all the cool technologies and nifty gadgets that I saw. But over the course of the entire four days, I rarely left the 20’x40’ patch of white carpet that was the QNX booth — with brief exceptions, of course, for bodily maintenance. The booth was just too busy for me to get away. If you checked out the QNX booth webcam, you know what I'm talking about.

Paul Leroux and Nancy Young have already posted a lot of information and photos about the show and the new QNX concept car, which is based on a Bentley Continental GT. So let me provide my personal view of CES through assorted anecdotes or observations collected at the booth.

• As you’d expect, the Bentley got a lot of attention. But our reference vehicle, based on a Jeep Wrangler, got more attention than I thought it would, even though this is the third time we’ve shown it in public. Many of the people interested in the Jeep just wanted to see what our QNX CAR application platform looked like “out of the box” without customization. And some were confessed Jeep or truck aficionados, without the “luxury brand lust” experienced by most.
   
• People in the auto industry knew who we were without introduction. Non-automotive people didn’t know who we were until I mentioned that “we are a wholly owned subsidiary of Research In Motion,” at which point most of them said “Oh, you’re that QNX.” Seems that your average person has heard quite a bit about QNX in the context of BlackBerry, but has no idea that the same company is doing things in automotive — or in anything else, for that matter. I usually then spoke about our 30+ year legacy in life- and mission-critical systems. When people learned that an OS used for mission-critical systems will also power their next potential phone, their reaction was “wow—that’s really cool.”
   
• Tanner Foust is a really nice young kid. (Actually, he’s not that much younger than me, but he sure looks young!) I didn’t know who he was when he was being filmed in the booth, surrounded by a throng of admirers. But since then, I’ve watched a lot of his YouTube videos and boy, can he drive! He's an accomplished race car driver, TV personality, and stuntman for lots of famous movies, but it’s nice to see he hasn’t let it go to his head.
   
• We wanted to make sure that our concept car respected the Bentley brand. To do that, we ran our design sketches by the folks at Bentley and they occasionally suggested some tweaks. It was all our own work, however, and the Bentley folks never saw it before it hit the show floor. When they came to the booth, they were very happy with what they saw — enough so that they said “it looked like we did it.” That, to me, was the ultimate compliment.
   
• Most frequent question: “Are you giving this away?” As it turns out, it’s something that people have said for every concept car we’ve done to date. Second most frequent question: “Can I drive it?” Unfortunately, but unsurprisingly, the answer to both is “No.”
   
• I was a little surprised by the enthusiastic response to the car's video conferencing. Of course, it works only while the car is parked, and you only get audio while the car is in Drive. But the part that seemed to impress people the most is the audio: two channel stereo and a full 20Hz to 22KHz means that the call sounds so much better than your typical hands-free call. You could see the reaction when the our director of acoustics Phil Hetherington started talking — you don’t know what you’ve been missing until you hear it.
   
• Bentley wanted us to add our video conferencing solution to the technology concept car. Because many Bentley vehicle owners aren’t necessarily the drivers, this feature makes a whole lot more sense for rear-seat systems than you might initially imagine.
   
• I was really impressed by two members of the media: Brian Cooley of CNET and Craig Peterson of Clear Channel. Both could receive a five minute technology core dump, quickly digest it, and talk intelligently about it on video or live radio (respectively) with no stumbles, questions, or missteps. I’ve had the pleasure of seeing both in action before, but their consummate professionalism is really quite amazing.
   
• I and every other QNX’er was delighted that we didn’t win the CNET Best of CES award! Instead, our customer, Chevrolet, won it for their MyLink system, and we couldn’t have been happier. Two out of the three nominees were QNX-based systems (the Garmin K2 was the other), so our odds were good. I’d rather that we never win another Best of CES award if it meant that one of our customers could always win instead.
   
• A number of people asked about the RIM booth and its absence. I explained that RIM was focusing on their launch at the end of January, and that since they wouldn’t have a new product to show the public, it didn’t make sense to be there. (It’s notable that Microsoft wasn’t there either, and Apple never is.) RIM was in Las Vegas in a hotel outside the convention center, giving media private previews of the upcoming phones that seemed to be extremely well received. And we had a few of our RIM compatriots helping us out at the QNX booth as well.
   

That’s all I’ve got to say about CES 2013 — our best show yet. See you next year!

Okay, time to get technical

Have glossy photos of the QNX concept car left you hungry for more? Dig into a technical whitepaper with our friends from Texas Instruments.

By now, many of you have seen photos and videos of the new QNX technology concept car, a specially modded Bentley Continental GT. Now, I'd like to say that the car was completed in record time by a small team of highly creative QNX engineers. And in many ways, that's absolutely true. But it's just as true that the work started more than 10 years ago, when QNX Software Systems started to build deep partnerships with leading players in the auto industry.

Because the truth is, you don't create this kind of magic overnight. And you don't do it on your lonesome. QNX has become successful in automotive for many reasons, but one of the most important is our ability to work closely, and productively, with A-list partners like Texas Instruments.

Inside the concept car

Take a look at the amazing displays in the Bentley, and the speed at which the screens redraw, and you get a taste just for how well QNX software and TI silicon work together under the covers.

Which brings me to a new white paper co-authored by Andy Gryc of QNX, and Matt Watson and Scott Linke of TI. It's titled "In-Vehicle Connectivity is So Retro," and among other things, it tells the story of how technologies from QNX and TI have co-evolved to help automotive developers build high-performance systems in less time and at less cost.

If your working vocabulary includes terms like OMAP 5, 1080p video decode/encode, floating-point DSP, MOST MLB, Ethernet AVB, PCIe, SATA, WiLink, Bluetooth, GPS, and NFC, this paper is for you.

Day four of CES: The home stretch

We all thought that day four would be a lot less busy and it was, however, we still had people waiting for a demo up until the dying minutes of the show.

The day opened with a video shoot by Brian Cooley - one of my favorite interviewers. This man can distill a complex technology down to the basics after a 10 minute briefing. And he can shoot a video in one take. Impressive.

Brian Cooley dropped by to do a spot for CNET. I really admire his ability to distill complicated subjects into very digestible bits.

Dr. Phil once again. Only this time he is in the soundproof booth, ready to wow everyone with a the first-ever HD stereo video call in the car.

Delphi had a beautiful QNX-based system in an Audio A7. Everything was gorgeous, responsive, and flawless.

One of the really cool things about the Delphi system was the theater seating in the back seat. Why watch a movie anywhere else?

Andrew Poliak, director of business development, did booth duty whenever not in meetings.

Day three of CES: Almost too exciting

Day three was interesting in that we had too many VIPs to see the Bentley at the same time: Tanner Foust, Thorsten Heins, and high-level execs from both Mercedes and Porsche. All had a good long look and chat inside the Bentley. I won't tell you which ones had to wait. ;-)

Nice problem to have, I know... but a little stressful nonetheless. (You never want to turn people away.) Of course everything worked out just fine. Better than fine, really.

Thorsten was very gracious and took the time to shake hands with all QNX employees. Tanner Foust (whom I did not know before the show) patiently posed for pictures with those QNX employees who were more informed than me about his star status.

Thorsten Heins (RIM CEO) had a good long chat with his buddy, Dan Dodge (QNX CEO).

Race car driver, Tanner Foust, drifted into the booth to see what QNX was all about. Here he is with Justin Moon from the concept development team.

Kerry Johnson, manager of automotive product management, pinch hit between meetings with customers, press, and analysts.


Victor Marques took his job on the show floor as seriously as he does when in the office.

QNX at 2013 CES: The media's take

The show ain't over yet, but already, media coverage of the QNX concept car at 2013 CES is pouring in faster than my modest brain can handle. I'm still catching up, but here, in no particular order, are my favorite stories so far.

I'd love to hear what you think of what the media is saying. So before you go, let me know!

New York Times — A Tricked-Out Bentley at CES Shows Off Tech’s Capabilities

Washington Post — CES 2013: Car tech focuses on making the most of your time on the road — safely

Driving.ca — QNX's Bentley gives glimpse of future car tech

Engadget — QNX unveils concept Bentley Continental GT alongside Car Platform 2.0

CNET — QNX concept Bentley showcases future dashboard technologies

Uber Gizmo — QNX Shows Off Bentley Continental GT Concept Car

Car Design News — QNX Car 2 at CES 2013 (video)

CrackBerry —  Dan Dodge shows off the QNX Bentley concept car at CES (video)

BerryReview — Monitor RIM’s New Bentley QNX Concept Car @CES from Your Browser

Auto Guide — QNX Previews Tesla-Sized Touch Screen in a Bentley

Engadget — QNX builds in-car speech framework with AT&T's Watson, knows our true intentions

Itbusiness.ca — RIM subsidiary brings in-car speech recognition (and a Bentley) to CES

LAPTOP — QNX Bringing HTML 5, 4G LTE, Video Conferencing to Future Cars

TechnoBuffalo — Chevy, Ford, and QNX at CES 2013 (video)

Financial Post — CES 2013 kicks off with RIM’s QNX showing off car, a step closer to digitized homes

Ottawa Citizen — Ottawa companies use CES to pitch latest products to the world

Tech 2 — CES 2013: QNX shows off Car Platform 2.0 with concept Bentley Continental GT

Blast Magazine — At 2013’s Consumer Electronics Show, car safety has become a hot topic

N4BB — QNX CAR Application Platform 2.0 Chosen by Delphi for Next-Generation Infotainment

That's it for now. I aim to post some more stories and videos early next week. Stay tuned.