Fully self-driving cars, despite the claims of some companies, aren’t quite prepared to be on the roads soon. There’s even a solid case to be made that completely autonomous vehicles (AVs) will never take over everyday travel. Nevertheless, some urban planners are already exploring how to ensure such a future could be as safe and efficient. According to a team at North Carolina State University, one solution may be changing the more-than-century-old design of traffic signals.
The widespread use of stop lights’ Red-Yellow-Green phases aren’t just coincidence—they’re actually codified in an international agreement dating back to 1931. This has served drivers pretty well since then, but the NC State team argues AVs could eventually create the opportunity for better road conditions. Or, at the very least, could benefit from some infrastructure adjustments.
Last year, researchers led by civil, construction, and environmental engineering associate professor Ali Hajbabaie created a computer model for city commuting patterns which indicated everyday driving could one day actually improve from a sizable influx of AVs. By sharing their copious amounts of real-time sensor information with one another, Hajbabaie and colleagues believe these vehicles could hypothetically coordinate far beyond simple intersection changes to adjust variables like speed and break times.
To further harness these benefits, they proposed the introduction of a fourth, “white” light to traffic signals. In this scenario, the “white” phase activates whenever enough interconnected AVs approach an intersection. Once lit, the phase indicates nearby drivers should simply follow the car (AV or human) in front of them, instead of trying to anticipate something like a yellow light’s transition time to red. Additionally, such interconnectivity could communicate with traffic signal systems to determine when it is best for “Walk” and “Do-Not-Walk” pedestrian signals. Based on their modeling, it appeared such a change could reduce intersection congestion by at least 40-percent compared to current traffic system optimization software. In doing so, this could improve overall travel times, fuel efficiency, and safety.
[Related: What can ‘smart intersections’ do for a city? Chattanooga aims to find out.]
But for those concerned about the stressful idea of confusing, colorless lights atop existing signals, don’t worry—the “white” is just a theoretical stand-in until regulators decide on something clearer.
“Research needs to be done to find the best color/indication,” Hajbabaie writes in an email to PopSci. “Any indication/color could be used as long as it does not associate with any existing message and does not create confusion.”
This initial model had a pretty glaring limitation, however—it did not really take pedestrians into much consideration. In the year since, Hajbabaie’s team has updated their four-phase traffic light computer model to account for this crucial factor in urban traffic. According to their new results published in Computer-Aided Civil Infrastructure and Engineering, the NC State researchers found that adding a fourth signal could decrease intersection delays by up to 25 percent when people walk.
Granted, this big decrease depends on almost everyone using AVs, according to Hajbabaie in a separate announcement this week. separate announcement this week. Given the current state of the industry, such a future seems much further down the road than many have hoped. But while not a distinct possibility at the moment, the team still believes even a modest increase in AVs on roads—coupled with something like this fourth “white” phase—could improve conditions in an extremely meaningful way. What’s more, Hajbabaie says that waiting for fully autonomous cars may not be necessary.
“We think that this concept would [also] work with vehicles that have adaptive cruise control and some sort of lateral movement controller such as lane keeping feature,” he tells PopSci. “Having said that, we think we would require more sensors in the intersection vicinity to be able to observe the location of vehicles if they are not equipped with all the sensors that smart cars will be equipped with.”
But regardless of whether cities ever reach a driverless car future, it’s probably best to just keep investing in green urban planning projects like cycling lanes, protected walkways, and even e-bikes. They’re simpler, and more eco-friendly.