Better Roads, 06 July 2015
Korean tech giant Samsung has revealed what it calls the “Safety Truck,” aimed at helping those attempting to pass big rigs see oncoming traffic better.
The system uses a wireless camera mounted on the truck’s front and transmits the video feed to four monitors built into the trailer doors. The model seen here and in the video below is just a prototype and was only used in Argentina, where, Samsung says, crash rates are among the world’s highest.
If Samsung has any longer-term plans for the technology, however, remains to be seen. The prototype pictured is already out of commission, and Samsung could have been trying to simply promote its meat and potato products—electronics—rather than announcing its foray into trucking industry systems.
Nonetheless, the story has appeared in several mainstream news outlets over the past several days and it’s a pretty amazing piece of technology. The camera systems allow a driver struck behind a big rig to access the same view the truck driver has. The thinking is this will allow following drivers better information as to the road ahead—specifically road hazards, accidents or unsafe drivers.
That way, instead of merely reacting when the brake lights in front of you suddenly blink on, drivers using the Samsung system will be able to gauge the road out in front of them, better anticipate problems and changing road conditions and react accordingly in a much safer time frame.
By all appearances, it’s an intuitive system with definite safety advantages. (Although my first reaction is that using the back of a trailer as a projection screen is a simple party trick, and the system would be better served with a conventional heads-up display screen positioned in the windshield of the car or truck.)
For me, this Samsung development is interesting because it highlights the incredible advantages that connectivity will deliver to trucking and transportation in the very near future.
Autonomous trucks and cars can operate in limited roles on our highways today. The technology, while still in its infancy, is already impressive and obviously has the potential to completely transform transportation. But the technology won’t reach its true potential until massive leaps forward in vehicle connectivity occur.
Right now, autonomous vehicle technology is essentially cruise control on steroids. That’s because the scope of a current truck’s operating environment is limited by the amount of information it receives and processes.
Today, if you happen to see an autonomous car or truck going down the road, in most instances, the vehicle is processing both inert and active data from the environment surrounding it. Land detection cameras watch painted lines on the road while additional radar and camera systems access, verify and track moving objects like other cars and stationary objects like guardrails and highway overpasses and then matches that real-time telemetry with bigger-picture GPS data to move the vehicle down the road safely.
But any autonomous vehicles on the road now are essentially operating in a vacuum. As this story from earlier this month noted, Google autonomous cars do just fine on the road—until they have to contend with human drivers in other cars. And then it seems, accidents can still happen.
The true breakthrough will come when every vehicle and object on the road is connected and communicating in real time. Automatically accessing camera and radar information and sharing it with multiple vehicles is a given, as Samsung is already demonstrating. Soon, all the vehicles on the road will be gathering and sharing information with one another: vehicle speed and braking are givens. Guardrails, bridges and other structures will have transponders in them, acting like thousands of roadside lighthouses flashing electronic warnings toward oncoming vehicles: I AM A HIGHWAY OVERPASS! DO NOT RUN INTO ME!
Traffic lights will work with both the vehicles on the road below and high-tech traffic control computers to keep traffic flowing as efficiently as possible. Smart intersections will compute vehicle telemetry and compare flow rates with other vital roads in a given area to seamlessly expedite traffic flow.
Has the volume of cars doubled? Then perhaps the system will elect to hold traffic lights on the main thoroughfare green for an additional 45 seconds per cycle to let a higher volume of traffic get through and help ease congestion before it turns into a full-blown traffic jam.
Connectivity will be the key to this highly efficient future. Samsung’s new Safety Truck system is taking the first step toward putting connected vehicle technology into real world use and giving us another glimpse at how dramatically the future of transportation is already changing.
Editor’s Note: News editor for sister sites Overdrive and CCJ James Jaillet contributed to this report.