Select your localized edition:

Close ×

More Ways to Connect

Discover one of our 28 local entrepreneurial communities »

Be the first to know as we launch in new countries and markets around the globe.

Interested in bringing MIT Technology Review to your local market?

MIT Technology ReviewMIT Technology Review - logo

 

Unsupported browser: Your browser does not meet modern web standards. See how it scores »

Back in 1994, the Italian physicist Cesare Marchetti hypothesised that throughout history, the average amount of time that people spend travelling each day is about 1 hour. This number—1 hour—is now known as Marchetti’s constant.

So Neolithic humans would have spent the same time travelling each day as 21st-century humans spend commuting. And commuters in sub-Saharan Africa spend the same time travelling as workers in North American megacities.

At least, that’s the theory and one that makes sense given that humans have to balance the time they spend travelling against the time they spend producing the food or money necessary to survive.

But is Marchetti’s hypothesis actually true? Various researchers have studied this question and come up with evidence both to back Marchetti’s ideas and refute them.

But at the heart of all these studies is a problem: they all rely on different data sets that are not easy to compare. These datasets include different types of surveys asking different questions and including different types of trips and so on. It’s eminently possible that researchers’ opposing conclusions are simply the result of the way they collect their data rather than representative of the underlying patterns they want to study.

What’s needed, of course, is a way of comparing commuting patterns that is exactly the same in different parts of the world. And today we get the results of one such study thanks to the work of Kevin Kung and pals at the Massachusetts Institute of Technology in Cambridge. These guys say Marchetti was right—that the time humans spend commuting is about 1 hour and largely independent of the distance, the country or even the continent in which they live.

The key to this work is the widespread availability of mobile phone data in different parts of the world. In this work, Kung and co compare the same type of data from people in Portugal, Ivory Coast in sub Saharan Africa and in Boston.

Each dataset records an individual user’s calls with timestamps along with the location of the base station being used. In Ivory Coast, they followed 50,000 phone users over a period of 150 days in 2012. In Portugal, they used the data from 2 million users throughout 2006 and 2007. (Kung and co do not describe the size of the Boston dataset.)

Their first task was to work out the home location of each cellphone user. They did this by assuming that people are at home at night and at work during week days. By determining the base station at these times, they could also calculate the distance that people travelled to and from work.

To work out the commuting times, they used the time of the last phone call from the home location as the start time for the journey and the time of the first phone call from the work location is the end of the journey (and similarly for the evening commute). This gave them an upper estimate for commuting times.

The results show that commuting patterns in Ivory Coast, Portugal and Boston are remarkably similar. Most people commute between the hours of 8 and 10 in the morning and are home by about 8.30pm. And the further they travel, the earlier they leave.

There is a little more variation in the evening commute in Portugal than Ivory Coast, with people taking longer to get home. That’s probably because people linger in the evening for drinks or dinner in Portuguese cities. By contrast, hazardous night-time driving and unreliable public transport in Ivory Coast mean that commuters have a greater incentive to be home early, say Kung and co.

More surprising is that the commuting time does not depend on the distance of the commute. So regardless of whether commuters walk, catch public transport or drive, they all spend about an hour on the road. And that’s true in the US, Europe and Africa. 

“In each country, beyond minor differences, the distributions … show remarkable similarity that is independent of the commute distances,” say Kung and pals. “This implies that there exists some overall distance-independent law that governs the bulk commuting behaviors.”

That’s more or less exactly as Marchetti hypothesised 20 years ago. Of course, it’s not possible to say with certainty whether Neolithic humans followed the same pattern. But it’s not beyond the realms of possibility given that this fundamental law of commuting seems to apply today in wildly different parts of the world.

Ref:  http://arxiv.org/abs/1311.2911 : Exploring Universal Patterns In Human Home/Work Commuting From Mobile Phone Data

4 comments. Share your thoughts »

Tagged: Communications, Mobile

Reprints and Permissions | Send feedback to the editor

From the Archives

Close

Introducing MIT Technology Review Insider.

Already a Magazine subscriber?

You're automatically an Insider. It's easy to activate or upgrade your account.

Activate Your Account

Become an Insider

It's the new way to subscribe. Get even more of the tech news, research, and discoveries you crave.

Sign Up

Learn More

Find out why MIT Technology Review Insider is for you and explore your options.

Show Me