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Consumer Telematics Show 2015

05/01/2015 - 05/01/2015, The Rio Hotel & Casino, Las Vegas

The Consumer Telematics Show (CTS) kicks off the calendar year for the connected car community. It gives automakers a platform for new partnership and product announcements and acts as the largest and most focused meeting point for 500+ automotive execs during International CES.

The future of V2V, part I

The U.S. government’s National Highway Traffic Safety Administration has announced plans to bring vehicle-to-vehicle (V2V) communication to light vehicles to mitigate crashes. But when and how this will happen remains unclear. In the first of a two-part series, Siegfried Mortkowitz investigates.

The announcement, in early February, by the U.S. government’s National Highway Traffic Safety Administration (NHTSA) that it would begin initiating a process to bring vehicle-to-vehicle (V2V) communication to light vehicles has kicked up almost as many questions as enthusiasm.

In its announcement, the agency said it was completing its analysis of data from theyear-long Connected Vehicle Safety Pilot Program it ran, with some 2,800 vehicles, in partnership with the University of Michigan Transportation Research Institute in Ann Arbor, and would publish the results “in the coming weeks.”

The NHTSA says that, by alerting drivers about imminent risks and hazards – especially those outside the driver’s line of sight – the technology can prevent many common crash types, such as rear end, lane change and intersection collisions.

In comments made at the International Consumer Electronics Show (CES), in Las Vegas, in January, the outgoing NHTSA administrator David Strickland said that if the technology is “linked with active in-vehicle technologies, V2V has the potential to help drivers avoid or mitigate crashes in 80% of the vehicle crash scenarios involving unimpaired drivers.”

How it works

One example of that, says Zachary Doerzaph, director of the Center for Advanced Automotive Research at the Virginia Tech Transportation Institute, is in the use of EEBL (Emergency Electronic Brake Lights), a V2V application that transmits a specific signal to following vehicles if the driver is forced to brake hard and suddenly.

If the scenario warrants it, any of the following vehicles equipped with V2V technology would then generate an alert to the driver. “It is designed especially to mitigate multi-car pileups,” Doerzaph says.

These alerts could take the form of flashing LED lights in the dashboard or rearview mirrors, audible warnings, or haptic feedback in the driver’s seat – or a combination of the three.

During a demonstration of the technology on a V2V-enabled Ford Taurus at this year’s CES, Farid Ahmed-Zaid, a technical expert for global driver assistance at Ford’s Active Safety Department, said the dedicated short-range communication (DSRC) technology picks up signals from other V2V-equipped vehicles within 900 to 1,500 feet.

The transmitted information includes vehicle speed, some vehicle-driver inputs, brake switch and turn signals.“That information is added to the GPS information,” Ahmed-Zaid said, “packaged into one message and goes out 10 times a second.”

“You’re going to know there’s something here, and it’s moving that fast and in this direction, and you’re going to have that information 10 times a second,” he explained.

There are also trials under way using a rapid brake pulse of 500 milliseconds, according to Doerzaph. “This would provide a warning to the driver through the braking system of the car,” he says. “It wouldn’t stop the car, or even slow it significantly, but it would prime the brakes and elicit a braking response from the driver.”

However, all of these lights, sounds and vibrations come with potential risks to the driver, warns Dave McNamara, president of McNamara Technology Solutions. “We want to improve the control of the vehicle,” he says. “You don’t want to add to the distraction.”

An elusive timeframe

The early February NHTSA announcement also said that, once the results of the testing were made public, the agency would “begin working on a regulatory proposal that would require V2V devices in new vehicles in a future year.”

That suggests strongly that the U.S. Department of Transportation (DOT) has already decided to seek some sort of mandate, similar to the Jan. 1, 1968, law that required all vehicles except buses to be fitted with seat belts.

However, it may not be weeks, but rather months, before the NHTSA makes public its findings.

Doerzaph suggests that the agency was being prudent. “There are fairly strong indications that they will pursue regulatory actions,” he says. “But they’re trying not to go to fast, to avoid backlash and resistance.”

The regulatory proposal, when it comes, will provide more details about what parts of the V2V system they will approve, Doerzaph says, adding: “The timeline will be an important part of the announcement.” He believes it will be “years before the mandate becomes real.”

According to news reports, DOT officials said they planned to implement the policy before President Barack Obama leaves office, perhaps in 2017. McNamara estimates that it would take 12 years after the announcement of the mandate for the technology to reach 100% penetration among light vehicles.

(To put that in perspective, Nissan CEO Carlos Ghosn has said that the Japanese carmaker would put an autonomous car on the market by 2020, which could render the mandate superfluous.)

“OEMs will need to have designs in their plans now, to get limited deployments out in 2018,” McNamara says. “So this was a strong nudge to move something into their products pipelines – most likely as an addition to existing ADAS on their luxury models. By then, commercial apps and V2I [vehicle to infrastructure] using DSRC will be on the road.”

DSRC or 4G LTE? Or LIDAR?

For the time being, the DOT is banking on DSRC as the basis for both V2V and V2I communications. One aim of the so-called Ann Arbor test bed was to determine if DSRC was reliable and if its use in V2V led to a decline in traffic accidents when in real-world situations.

However, alternatives to DRSC are already being considered or tested, such as the 4G LTE high-speed wireless networks and Google’s roof-mounted Velodyne Lidar vision sensor system.

4G LTE is “not an alternative,” McNamara says. “It’s not certifiable, not robust enough.” In addition, Doerzaph says, DSRC has a very powerful advantage over LTE. “Privacy and security are inherent in the DSRC design, but not necessarily in 4G LTE,” he says. “It’s a little more possible that a government or other entity, could track your position. It is not put together like DSRC, that it couldn’t be tracked because nothing identifying is transmitted.”

Or even hacked. “Any time we allow any access over wireless, it opens the possibility that it could be hacked,” Doerzaph says. “Cyber security needs to be designed right up front.” This is a critical factor when it is tied to control of the car. Hacking is less important when the system only allows warnings, like the current DSRC-based V2V systems.

However, the Velodyne Lidar sensor system, currently used by Google on its prototypical driverless cars, may be a more formidable alternative to DSRC, if for no other reason than it eliminates entirely the security and privacy concerns. “There are no privacy issues with the Google autonomous sensors,” McNamara says.

For his part, Doerzaph says traditional sensor-based systems are “great, but they are expensive, though they will certainly get less so over time, and they all have limitations – for example, they require line of sight.”

That would make them almost useless in crashes involving vehicles approaching each other at city intersections or around curves, any scenario where the drivers do not see each other’s vehicle.

Ford’s Ahmed-Zaid underlined the crucial importance of this feature. “That’s why OEMs have been working on this for 10 years – it’s those scenarios where you can’t see the threat,” he said.DSRC, he added, “being Wi-Fi-based, can go through buildings, with some attenuation … but enough to give a warning to the driver.”

V2V “is really just another sensor,” Doerzaph says. “But it is very inexpensive, requires little computational power, enables many applications with different goalsand can be used to share information about intent, rather than traditional sensors, which can only respond to actions that have already been taken.”

Nevertheless, he adds: “In an automated world, I expect both autonomous sensors and connected vehicle capabilities to be present. Assuming automated control of a vehicle is a very complex and very risky endeavor. A robust approach using sensor fusion to ensure reliability is required to create a safe automated environment.”

(Return next week for the second part of the series.)

Siegfried Mortkowitz is a regular contributor to Telematics Update. 

For all the latest telematics trends, check out Insurance Telematics Europe 2014 on May 6-7 in London, Data Business for Connected Vehicles Japan 2014 on May 14-15 in Tokyo, Telematics India and South Asia 2014 on May 28-29 in Bangalore, India, Insurance Telematics Canada 2014 on May 28-29 in Toronto, Telematics Update Awards 2014 on June 3 in Novi, Michigan, Telematics Detroit 2014 on June 4-5 in Novi, Michigan, Advanced Automotive Safety USA 2014 on July 8-9 in Novi, Michigan, Insurance Telematics USA 2014 on Sept. 3-4 in Chicago, Telematics Japan 2014 in October in Tokyo and Telematics Munich 2014 on Nov. 10-11 in Munich, Germany.

For exclusive telematics business analysis and insight, check out TU’s reports: Insurance Telematics Report 2014Connected Fleet Report 2014The Automotive HMI Report 2013 and Telematics Connectivity Strategies Report 2013.

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Consumer Telematics Show 2015

05/01/2015 - 05/01/2015, The Rio Hotel & Casino, Las Vegas

The Consumer Telematics Show (CTS) kicks off the calendar year for the connected car community. It gives automakers a platform for new partnership and product announcements and acts as the largest and most focused meeting point for 500+ automotive execs during International CES.