Traffic jam mystery solved by mathematicians
Mathematicians from the University of Exeter have solved the mystery of traffic jams by developing a model to show how major delays occur on our roads, with no apparent cause. Many traffic jams leave drivers baffled as they finally reach the end of a tail-back to find no visible cause for their delay. Now, a team of mathematicians from the Universities of Exeter, Bristol and Budapest, have found the answer and published their findings in leading academic journal Proceedings of the Royal Society.
The team developed a mathematical model to show the impact of unexpected events such as a lorry pulling out of its lane on a dual carriageway. Their model revealed that slowing down below a critical speed when reacting to such an event, a driver would force the car behind to slow down further and the next car back to reduce its speed further still. The result of this is that several miles back, cars would finally grind to a halt, with drivers oblivious to the reason for their delay. The model predicts that this is a very typical scenario on a busy highway (above 15 vehicles per km). The jam moves backwards through the traffic creating a so-called ‘backward travelling wave’, which drivers may encounter many miles upstream, several minutes after it was triggered.
Dr Gábor Orosz of the University of Exeter said: “As many of us prepare to travel long distances to see family and friends over Christmas, we’re likely to experience the frustration of getting stuck in a traffic jam that seems to have no cause. Our model shows that overreaction of a single driver can have enormous impact on the rest of the traffic, leading to massive delays.”
Drivers and policy-makers have not previously known why jams like this occur, though many have put it down to the sheer volume of traffic. While this clearly plays a part in this new theory, the main issue is around the smoothness of traffic flow. According to the model, heavy traffic will not automatically lead to congestion but can be smooth-flowing. This model takes into account the time-delay in drivers’ reactions, which lead to drivers braking more heavily than would have been necessary had they identified and reacted to a problem ahead a second earlier.
Dr Orosz continued: “When you tap your brake, the traffic may come to a full stand-still several miles behind you. It really matters how hard you brake - a slight braking from a driver who has identified a problem early will allow the traffic flow to remain smooth. Heavier braking, usually caused by a driver reacting late to a problem, can affect traffic flow for many miles.”
The research team now plans to develop a model for cars equipped with new electronic devices, which could cut down on over-braking as a result of slow reactions.
Printer-friendly versionPermalink
December 19, 2007
About us
Science Blog was started in August 2002. It lives, breathes and eats press releases from research organizations around the globe. Most of what you read here are press releases from the outfits named in the stories themselves. Got a news story you think belongs here? Let's talk. The other half of the equation is blog posts from readers like you. So if you have an interest in science, please register and join others like you in an ongoing, vibrant dialog about what makes the world tick. Meantime, please take a minute to read our Privacy Policy and Site Disclaimer.Recommended
Andrew Sullivan Dan Sullivan Doug Arellanes Emmanuelle Richard Faith Sullivan Fred Bortz Heather Havrilesky Henry Copeland Kate Sullivan Ken Layne lagreenbean.com LAist.com Maggie Sullivan Matt Welch NewYorkology Opinion L.A. Ron Kaye Slashdot Steve Elzer & Family TheNewsroom.org Thor Garcia Tony Pierce Wonkette OlderThanks CNET for naming Science Blog one of your Blog 100!
Comments
over-breaking and traffic jams
December 20, 2007 by Anonymous3 (not verified), 1 year 48 weeks ago
Comment id: 26535
You're missing the point of the problem addressed by the article, which is not "whose fault it is?" but rather: "how come do we come to a halt when there is no actual obstacle that makes someone ahead of you stop?". The answer given by the article is that rapid deceleration propagates backward and intensifies, until someone has to stop even if the car ahead of him had not stopped.
The novel idea is in the end the fact that if you break late, by a matter of imprecision in adjusting your final speed after breaking, you are forced to slow down to a speed which is _less_ than the speed of the car in front of you that made you break.
Discourteous drivers cause delays and road rage
December 19, 2007 by Don (not verified), 1 year 48 weeks ago
Comment id: 26532
It has been said that Miami area has the largest concentration of discourteous drivers. Living in the area for the past couple of years, I'd have to admit that the driving experience in the Miami area is the worst I have seen, perhaps even worse than LA. The discourteous drivers trying to get just a few car lengths ahead will wedge themselves into the safety cushion that should exist between following vehicles and force safer drivers to brake to re-establish the safety cushion. Perhaps these unsafe drivers are being frustrated by a similar unsafe driver a mile ahead of them, which initially caused the traffic slow-down. Other drivers frustrated about not being able to enter the passing lane, instead choose to remain in the passing lane, even if not overtaking another vehicle. This can create a moving roadblock and increase the frustration and risk-taking by impatient drivers.
I'd be curious to see this
December 19, 2007 by Anonymous1 (not verified), 1 year 48 weeks ago
Comment id: 26528
I'd be curious to see this mapped against the increase of modern distractions such as cellphone usage.
The research team now plans
December 19, 2007 by Anonymous2 (not verified), 1 year 48 weeks ago
Comment id: 26521
The research team now plans to develop a model for cars equipped with new electronic devices, which could cut down on over-braking as a result of slow reactions.
As a motorist, I have to say that over-braking because of slow reaction is IMHO only a small part of the problem. What about people who switch lane at the last moment, without properly checking their rear view mirrors? Or trucks aggressively switching lanes whenever they see a small gap? Most of the times I need to step heavily on the breaks, it just because of those reasons.
Second, I wonder if slow reaction in real life are really all slow reactions. AFAIK, heavy breaking at the last moment is also a misguided hint to a driver on the left lane who is overtaking at a too slow pace (20-30km/h below the speed limit).
Post new comment