No, not really. But it seems as if that headline could be written any day now. Apple’s influence inside the car has become as pervasive as Google’s influence outside it. Apple’s iPods and iPhones have fundamentally altered the automotive audio experience and are speeding the demise of the in-car CD player.

 

The electronics industry may be abuzz regarding the impending arrival of the Apple “iSlate” tablet computer, but auto makers and their suppliers are wrestling every day with the impact of hundreds of millions of iPods and millions of iPhones. Even telecommunications companies have felt Apple’s touch, causing them to re-evaluate flat rate data plans as iPhone users tune in to Internet radio and streaming video applications en masse.

 

But Apple’s influence began 6-7 years ago. Apple’s iPods arrived on the market around the same time aftermarket companies were toying with the idea of removable and dockable storage drives in cars. Companies from Seagate to Kenwood, Phatnoise and Rosen Entertainment, among others, dabbled in this area to the extent of bringing products into the marketplace only to discover that the iPod had become the de facto portable storage device for in-vehicle use.

 

A similar reality is unfolding today as car makers seek to bring Internet access into the car via embedded modules, while iPhone users are bringing Internet applications to the car via their iPhones. Today, iPhone users can access Internet radio, podcasts, navigation and location-related applications all from their smartphones. In fact, many car makers provide proprietary Apple connectors with their new cars. (The salesman who sold me my car last year provided these connectors - which are now jammed into my console for storage - even though I use a Blackberry.)

 

We have Apple to thank/blame for the proliferation of AUX IN and USB connectors in cars and, soon, we may have Apple to thank/blame for the demise of the automotive CD drive. For now, CDs persist out of convenience, low cost and wide consumer acceptance. But retail sales are in freefall even as downloads continue to gain, particularly, of course, for iTunes. When it comes to low cost, a properly connected iPhone delivers as much value as the average multifunction head unit – and more.

 

The latest iPhone vehicle connectivity developments revolve around transferring control of the device to the in-vehicle HMI. Most Tier Ones have mastered this task enabling steering wheel and other controls to manage iPhone functions. The next step in the works is to transfer the images displayed on the iPhone screen to the center stack display, if there is one. But the convergence of Apple devices and automobiles will continue especially as the installed base of devices continues to grow.

 

That installed base fuels a massive aftermarket. Apple’s presence in the mobile electronics industry was never more obvious than at the Consumer Electronics Show earlier this month where dozens of companies showed devices for connecting or mounting Apple products in cars. The Apple automotive aftermarket alone is probably bigger than the rest of the automotive aftermarket combined - roughly speaking.

 

Rest assured that OEMs and their suppliers are laboring furiously to get out in front of Apple’s next move that may influence the car buying public. Maybe the iSlate will alter the automotive aftermarket in some fundamental way. Is an Apple head unit next? Not likely. Not now, after Apple has forever altered the in-car audio experience. For the foreseeable future, every head unit maker will have to make a pit stop in Cupertino before bringing their next product to market.

 

The single most important automotive product introduction at CES was MyFordTouch and the related software developer kit (SDK) and application programming interfaces. Competing OEMs and their suppliers are scrambling to respond to Ford's strategy which is only manifesting today what

has been in development for five years or more. In the end, Ford has created and demonstrated an ability to design and deploy new features and functions at an unheardof pace, unmatched in the industry.

 

Ford has finally solved the automotive industry solution development logjam and has further opened up its platform for the creation of even more new applications by third parties. This "long-tail" strategy has created a competitive environment where the OEM (or supplier) that enables or is capable of enabling the most applications will win. This does not mean that every car buyer uses every application, but it does mean that there will likely be at least a few applications that every driver will want to try - hence the long tail. It also means great aftermarket opportunities, marketing angles, and customer touch opportunities for Ford and its dealer network - "come down and get your free apps!"

The Ford announcement greatly overshadowed Kia's Uvo launch, which represented a significant advance on the original Ford Sync and is based on an updated Microsoft MS Auto platform.  Similarly, the OnStar Volt smartphone integration announcement is a mere one-off feature introduction for a single expensive vehicle due much later in 2010. Though the vehicle charge status application is necessary for the electric vehicle segment, t is not a mass market concept and it was originally shown a year ago. It does show OnStar integrating smartphone funtionality for the first time, but it is not the harbinger of an open platform from OnStar.

 

The mbrace announcement from Mercedes late last year was more important because Mercedes will be launching additional smartphone applications thanks to the Hughes Telematics back-end architecture. OnStar lacks the flexibility to deploy a wide range of applications in the same manner as Mercedes.

The influence of Ford's architectural decisions is reflected in the movement of Tier Ones to enable a wide range of applications across multiple platforms and operating systems. Some examples include QNX's ConnectedCar, Continental's AutoLinQ, Airbiquity's aqLink, Visteon's connectivity platform and Denso's BlueHarmony. Continental's choice of the Android operating system, in particular, reflects the objective of opening the automotive environment to a wider software developer community. Continental, in particular, announced plans for its own Androi-based SDK for Q1 and an application store due in the second half of 2010.

 

Even telematics service providers - Airbiquity, Cross Country/ATX, Hughes, and WirelessCar - are seeking to enable and support a much wider range of applications ranging from news, weather and sports content delivery to traffic camera display and Internet radio. And social networking applications such as Twitter, FaceBook and myspace are being enabled for embedded in-vehicle use as well.

OEMs will do well to choose hardware, software, content, operating system and service providers that are capable of rapid deployment of voice and connectivity-enabled features and functions in a safe manner via a controlled vetting process. Ford is showing the way, but there will be multiple paths to this objective.

The battle lines are drawn between Flo-TV, the service that transmits television in the 716-722MHz band, and the new ATSC mobile DTV standard, which had its coming out party at the recent Consumer Electronics Show. Flo-TV executives were keen to raise questions regarding the viability of mobile DTV even as products using the technology are just arriving on the market. The reason for the rivalry is that both technologies are vying for automotive line fit and aftermarket opportunities, although the automotive market is admittedly secondary to the primary goals of enabling mobile devices to receive live television. The ATSC mobile DTV standard is supported by the Open Mobile Video Coalition. Both the OMVC and Flo-TV anticipate millions of users of mobile TV technology even though Flo-TV's subscribers are still estimated in the low hundreds of thousands (See: FLO-TV Hesitant Start: Automotive TV Market Not Assured - Strategy Analytics) and mobile DTV has not yet reached the market. Flo-TV, a $10/month subscription-based service, offers less than 20 channels in 50 markets, but the available channels include a range of premium and leading network broadcast content. Picture quality is adequate, especially for a small mobile screen, and comparable to ATSC. Nevertheless, Flo-TV executives speaking privately at CES raised several questions about the new ATSC mobile DTV standard including: -> The inconsistent availability of channels from market to market; -> The quality of reception; -> The existence of a business model to justify the mobile DTV investment; -> The availability of particular content governed by mobile licenses - ie. NFL broadcasts; -> The potential for the government to reclaim the allocated spectrum. The significance of the raising of these points is that Flo-TV has its own coverage and picture quality issues, according to industry observers, although it does have the advantage of a consistent offering of content throughout its (limited) program areas.  And the potential for the government to reclaim the spectrum, though a serious possibility, is a bit of a red herring given that the spectrum was only recently allocated and any change will likely be met by massive opposition. The question of mobile licensing of content will likely be resolved via negotiation among interested parties, and a resolution is likely because there are in fact a variety of business models designed to eventually deliver billions of dollars in revenue including both advertising and conditional access. The mobile DTV standard provides for conditional access to content in addition to free content. Flo-TV has no free content other than a preview channel today. One way for Flo-TV to get better traction might be to shift some of its content to a "free" ad-supported model. Still, the variety of available content, the number of available channels and the range of use cases for managing content via Mobile DTV will remain more robust. Rather than list the use cases, it is probably easier to visit this link: Use cases: http://www.omvc.org/_assets/docs/broadcasters/mobile-dtv.pdf Suffice it to say mobile D-TV provides for push, interactivity and time-shifting and all of the advertising and commercial possibilities implied in those capabilities. The remaining question, though, is the size of the automotive market opportunity. Unlike Asian and European markets, front seat viewing in the U.S. is out of the question for the time being and, even when it arrives (via dual view technology) is likely only to be intended for passengers. With most automotive viewing, therefore, done in the rearseat, mobile TV of any kind will - for the most part - be limited to families with young children, couples and tailgaters. Flo-TV has already gotten the jump on mobile D-TV with Chrysler's launch of a Flo-TV aftermarket device available through Mopar. Mobile TV aftermarket supplier Winegard showed its CIO TV solution at CES, although it chose not to show its concept for the required antenna. Presumably the antenna will not be an issue as it was for satellite-based solutions such as ATT Cruisecast which failed late last year. To date, large antennas have been a major drawback to in-vehicle television delivery systems. OMVC identifies a variety of mobile device user populations in its own studies, including commuters: Study: http://www.omvc.org/_assets/docs/press-releases/2009/OMVC-Mobile-TV-Study-December-2009.pdf It is worth noting the variety of content types in which consumers express interest in connection to the variety of available content delivery modalities and types enabled by mobile DTV. Devices that enable Wi-Fi distribution of mobile DTV content have already been introduced in the market and the nacent introduction of Wi-Fi technology in vehicles is gaining momentum. The battle for non-driver eyeballs has begun. Perhaps this segment can be turned into something more than a niche.

Denso privately showed an Internet connectivity platform called Blue Harmony at the Detroit Auto Show this week. Despite its name which suggests an emphasis on Bluetooth, Blue Harmony is actually built around a 3G cellular connection enhanced with Wi-Fi for internal and external communication and Bluetooth. It is designed as a center stack solution with full-size, touch-screen display for navigation and other functions. The announcement shows Denso offering its own all-purpose alternative to similar solutions from Continental and Visteon. Blue Harmony's introduction reflects the ongoing efforts being made by Tier One suppliers to provide for smartphone integration and application downloads. Blue Harmony is designed to function with a variety of hardware and software configurations. The positioning of the system is clearly targeted at higher end applications as opposed to simple Bluetooth connectivity offerings such as Ford's Sync. Denso is being specific about the broad range of functionality enabled by the Blue Harmony system, but is being deliberately ambiguous about specific component partners and HMI, leaving these choices to potential customers. The stated objective of Blue Harmony is to enable connected consumer applications including access to music, news and traffic information while enabling safe implementation of social networking applications such as Facebook and Twitter. Flexibility and customizability are critical elements of the system including the ability to download applications capable of enabling services such as Pandora Internet radio. OEMs will be able to target different consumer segments with customized user interfaces or different application portfolios. Blue Harmony will also deploy a wide range of voice-enabled applications such as news readers or messaging. And in addition to Wi-Fi technology, the system also incorporates vehicle-to-vehicle communication capability.

Genivi Challenges Automotive OS Duopoly, Disrupts Business Models

 

The Genivi Alliance had a coming out party at the Consumer Electronics Show this week. Aside from the formal launch of the alliance at CeBIT in the winter of 2009, the organization has chosen smaller stages from which to tell its story and attract additional partners. At the CES show, however, Visteon raised the Genivi flag high in introducing new automotive infotainment solutions.

 

Genivi is currently positioned in the industry as an alternative to Microsoft and QNX as an automotive operating system for a range of cockpit applications. The business models of these three organizations differ significantly, though, and the objectives of the Genivi Alliance are not strictly related to taking the place of either of Microsoft’s automotive OS offerings or QNX. The stated objectives appear more closely aligned with reducing development costs for OEMs and, more recently, may include shifting ownership of intellectual property to the OEMs as well.

 

QNX and Microsoft are not the only operating systems available to automotive suppliers. There still remain multiple Linux distributions – including the recently emergent Android being positioned for automotive applications by Continental - as well as versions of M-Itron. But when it comes to the development of the most advanced automotive cockpit systems on the road today, QNX and Microsoft are dominant.

 

When it comes to business models, the two companies differ significantly. Microsoft has a reputation for being expensive, but mitigates the expense with marketing dollars. QNX takes a more traditional approach to software licensing and is a much quieter player in the market, from a marketing or marketing dollars standpoint. Microsoft has found success in both the high-end infotainment segment and the low end (Ford Sync, Fiat Blue&Me).

 

QNX has seen much of its deployments in the luxury segment in connection with parent Harman International, but has also had its share of success in Bluetooth solutions, instrument clusters and GM’s OnStar system. QNX’s most recent success has centered on its work with Lexus and parent Toyota which appears to have opened the door to additional business in Japan. QNX claims in excess of 12M cars deployed with its software.

 

The Genivi strategy, rooted in the shared-code model of Linux, is designed to speed product development by identifying and distributing those layers of operating system code that are identical across platforms. Of course, all operating systems have an element of shared code, but the Genivi approach creates a “star chamber-like” panel of alliance members that vet new additions to the underlying shared code, presumably leaving ample room for alliance members to differentiate their solutions in higher levels of the software stack such as HMI are other application-specific areas.

 

Genivi had its CES debut in the Visteon booth. While one physical platform was shown based on an Intel ATOMM processor, executives said it could be swapped out for solutions from competing silicon suppliers such as Renesas or Freescale, depending on the customer requirement. This is one element of the Genivi platform, like other industry platforms it is intended to allow virtual plug-n-play swapping of processors and other system elements.

 

Visteon executives noted that the initial release, Genivi 1.0, occurred December 17 and the organization is now in the midst of a 21-business day review by its membership. Genivi announced that it surpassed the 50-member mark before CES including such significant partners as Renesas and Nissan. The Genivi 1.0 review is to be completed Jan. 21. During the period of the review the Board of Genivi may receive, via its executive director, any potential member claims of IP which were not contributed by the member under the terms of the IPR policy that they feel are infringed upon with the candidate release. The review period is also indeed to perform a careful review of the documentation of inbound and outbound licensing of the components included in the release. In no notifications occur, the board is expected to vote in a meeting Jan. 27 to release Genivi 1.0. Otherwise, the Board may delay until IP notifications are research and resolved or until license documentation is complete.

 

Because Genivi is so new, rumors continue to swirl around critical business model issues such as IP ownership by OEMs implementing Genivi solutions and around the extent to which it may creep into upper levels of the software stack such as HMI and the application level. For now, the industry will have to wait for its chance to see the first implementation.

 

Genivi will coexist in the market with both QNX and Microsoft including in some of the same systems. This is true for Android as well, which will not replace QNX or Microsoft in the short run. In the end, while additional versions of Linux will continue to emerge and find a place in the automotive market, the duopoly of Microsoft and QNX is likely to persist for some time. Genivi stands to have its greatest influence over time as additional layers of code are added. Participants in the alliance will be watching most closely to see that their value add contribution is preserved.

Motorola brought an impressive new connected portable navigation device to the Consumer Electronics Show last week. It is the first unit built around Airbiquity's in-band modem technology which enables a variety of first-time connectivity features on a PND. And the user interface offers some unique elements worthy of emulation by competitors as well. In the end, however, despite having conquered technology challenges in bringing this innovative device to market, the greatest challenge facing Motorola when the product becomes available later this year, will be gaining shelfspace position at retail in a consolidating segment. The first-time list of features on the Motonav TN700 includes a wide-screen 5.1" display, Bing411 voice-enabled business search, Caller ID for announcing in-bound callers, a scrolling list of POIs that appears on the left hand side of the screen as they are passed by the device, speed camera alerts from Cobra (a capability beginning to show up on other new PNDs), and direct entry of addresses (ie. street number, name, etc.). The Airbiquity in-band modem enables the inclusion of a bundle of services called MotoExtras - free for the first 3 months - including weather, gas prices, flight status, etc. Google Search is also accessible for locating POIs. Traffic data is provided by Navteq free for the life of the device as part of Traffic.com's ad-supported business model. The price of the device has not yet been set, but will likely be in the mid- to high-end range. The speed camera data and MotoExtras will be subject to annual subscription and bundling offers both yet to be determined. The real challenge for Motorola, though, will be gaining a foothold in retail stores where Garmin and TomTom have been adding SKUs to their assortments pushing aside second and third tier brands. According to one industry assessment, the two brands account for 63% of all retail shelfspace, up from 55% a year ago. Motorola currently has 1.8% share in the U.S. Further complicating Motorola's retail ambitions is the low-end orientation of the PND market, with as much as 75%-80% of sales coming from entry-level models, the expected re-emergence of Magellan and Mio later this spring, and Best Buy's ongoing ambitions in the connected PND segment. Related content: Connected PND Database: http://www.strategyanalytics.com/default.aspx?mod=ReportAbstractViewer&a0=5213 Automotive and Portable Navigation Forecast: http://www.strategyanalytics.com/default.aspx?mod=ReportAbstractViewer&a0=4785

The unspoken theme to the 2010 Consumer Telematics Show held one day prior to CES in Las Vegas was HMI’s role in the safe interaction between the driver of the vehicle and the various portable and embedded electronics prevalent in today’s vehicles.  When polled, the vast majority of the 250+ attendees of the telematics conference indicated that driver distraction is a major concern. There is widespread legislation across international markets governing the safe operation of cellular phones while driving. Safety concerns and legislation over the next 2-3 years is also expected to cover music players/iPods, PND and smartphone use in the vehicle. There is also strong legislator interest and research into driver distraction issues surrounding driver use of multiple multimedia and automotive features within the vehicle.

• Ray LaHood, United States Secretary of Transportation has called distracted driving a “deadly epidemic” and NHTSA has stated that in 2008, 6,000 deaths and 500,000+ injuries were caused by distracted driving.

http://www.washingtonpost.com/wp-dyn/content/article/2009/11/27/AR2009112702320.html Despite increasing demand for HMI innovation there are significant cost related challenges that will impact availability, pricing and competitive positioning between HMI products and between car makers. Achieving scale economies across vehicle segments and leveraging from markets and products outside the vehicle will impact automotive product development. Car makers have differing strategies towards `open' versus proprietary solutions for multimedia and communications solutions including HMI. For example, Ford and Fiat are working with Microsoft, whereas Toyota is considering taking a proprietary route to operating system (OS) platform development.

• The most notable progress towards `open' standards, platforms and APIs - and hence cost reduction - has been made by voice technology based automotive products.

As consumers multimedia usability experience improves rapidly on portable devices and in the home, there are increasing opportunities for automotive players to learn and leverage this progress for improvements in the multimedia and communications experience in the vehicle.

• There is a significant and growing gap between multimedia experience on devices and in the home versus automotive products.
• There is rapid growth in consumer adoption, functionality and user experience for: iPods; iPhones and smartphones; PNDs; and multifeatured devices.
• Display designs and location, voice technology, resistive touch, capacitive touch, other haptic technologies, other HMI technologies, improved intuitive menu structures, and user interface design all offer opportunities for automotive product improvement and competitive differentiation.  (Please refer to Strategy Analytics Blogs concerning the KIA UVO and Ford SYNC announcements at CES 2010)

Strategy Analytics forecasts strong growth for automotive voice technology and touch screen displays are set to reach $1.2 billion and $1.7 billion respectively in 2015. Strategy Analytics expects total revenues generated from voice recognition systems to increase from $284M in 2007 to $1,195M in 2015 representing a CAGR of 20% p.a. over the forecast period. Strategy Analytics expects total revenues from touch screen displays to increase from $660M in 2007 to $1,7102M in 2015 representing a CAGR of 13% p.a. over the forecast period (Exhibit 1.3).

• "Total" is the summation of demand from the major vehicle producing regions of NAFTA, Japan, Europe (West and East), Russia, South Korea, China and India.

For more information on vehicle HMI, please see the following Strategy Analytics report “Automotive HMI: Voice Technology and Touch Screens Have Significant Lead”:  http://www.strategyanalytics.com/default.aspx?mod=ReportAbstractViewer&a0=4730

The marketing battle between traffic service providers will continue into 2010. The good news is that 2009 firmly established the value of traffic data. The turning point came with the introduction of multiple mobile phone navigation solutions, most of which arrived through the aegis of the application store model pioneered by Apple. But new, unusual and creative solutions will arrive in 2010 and change the existing balance of power.

 

Users of these new navigation systems and the developers quickly discovered that reliable traffic information was the real killer app that mobile users were seeking. In the process they discovered that to deliver reliable travel times they needed a wide variety of traffic data including real-time, historical, predictive and incident data. Unfortunately, one of the key sources of traffic data – radio and television stations with cameras, ‘copters and spotters to report incident information – have suffered in the current downturn. In fact, there are anecdotal indications that radio stations are dropping traffic reporting. A model for delivering nationwide incident data that was previously fueled by advertising and sponsorships is becoming frayed at the edges as TV and radio advertising suffer.

 

Traffic.com, ClearChannel and Westwood One/SmartRoute, among others, are all seeking new funding, new business models or new owners in a bid to preserve or enhance their market positions. In the meantime, Google has barged into the market with its own traffic data raising questions over the viability of incumbent players. Google’s entry into any market raises these questions, although the reliability or robustness of Google’s traffic solution has yet to be proven. Inrix, on the other hand, has not based its model on sponsorships or advertising and, as a result, has for the most part avoided the negative impact of the downturn in advertising activity. But with Google getting into the traffic data aggregation and algorithm business, no traffic data supplier is safe including Microsoft's ClearFlow.

 

Of more immediate concern than Google entering the traffic market is the changing role of mobile-phone based navigation. Google is a player here as well, but it has more company in the form of Networks in Motion and TeleNav and their carrier partners. (TelMap's efforts in Europe have been hindered by the fragmented nature of the market and the negative impact of roaming charges.) While companies such as Cellint, AirSage, and IntelliOne have been seeking to integrate cell-tower triangulation data for probe traffic inputs, expect the carriers to introduce GPS-based probe data in the new year – representing a key added-value advantage. GPS-based probe data derived from mobile phone handsets will not replace triangulated data, which will always represent the greatest volume of “anonymized” location data, but the GPS data is likely to be more timely and accurate, critical to traffic reporting and analysis. The GPS-based data will likely require opt in participation vs. the triangulated data which to date has been applied involuntarily.

 

Still, good probe data is almost worthless without incident data. Without incident data the system is unable to interpret slowed or stopped traffic – ie. is it weather, volume, construction, a fallen tree limb, an uphill grade? The battle for reliable traffic data will come down to good incident data. This means the industry will see vastly enhanced probe data in 2010, but the gap between reliable flow and reliable incident data will suddenly become much clearer.

 

Through all the enhancements to traffic reporting consumers have been expressing their interest in better and more timely information and, in particular, more real-time incident information. As an example, RDS-TMC is notorious for the 5-10-15-minute delays in incident reporting, sometimes worse. Drivers want to know what is happening in real time.

 

In 2010, drivers will begin to get real-time information. Whether that information comes from Twitter, TrafficTalk, Aha Mobile, Waze, TrafficLand or some other solution is not clear. What is clear is that drivers want to know BOTH what has happened in the past and what is happening now. But what they really want to know is what is happening right in front of them.

 

The solutions will come in 2010 from three key sources: mobile-phone-based crowd-sourced info, traffic cameras and, perhaps, vehicle-mounted cameras. The challenges to delivery include the creation of traffic reporting “crowds,” something TrafficTalk, Waze and Aha Mobile are working on; and camera input interpretation and delivery platforms. Developments in 2009 clearly indicated that drivers must spend less time looking away from the road to navigation interfaces. More information must be conveyed via voice.

 

Traffic information suppliers will still be looking at a combination of subscription-based and sponsored traffic information. Consumers have clearly indicated a willingness to pay for traffic data, both in Strategy Analytics surveys and in the combined 10 million subscribers to Networks in Motion, TeleNav and XM/Sirius traffic information.

 

The industry will see some outlandish innovations ranging from delivering traffic camera info to mobile phones to – in 2-3 years – aftermarket in-vehicle cameras to capture traffic incidents. Two things are clear. Better incident data is required and solutions are in the pipeline.