For creative problem-solving, it still pays off to have some people in an organization who don’t directly work together, according to a recent study.
The finding flies in the face of the open office trend, for example, which emphasizes groups of people solving problems together. And online, it’s all about maximizing connectivity and sharing within the social network.
Slack, one of an array of popular software programs designed to boost collaboration among groups in the workplace, promises “Team communication for the 21st century—everyone has a transparent view of what’s going on.”
Study author Jesse Shore, an assistant professor of information systems at Boston University’s Questrom School of Business, isn’t suggesting that collaboration is a bad thing, however.
His study also demonstrates the benefits of collaboration and a high degree of connectedness among a group of people—or, to use the social science research term, clustering. It all depends on which part of the problem-solving process people are engaged in—the search for information or using the information to come up with solutions.
Shore and his coauthors, Ethan Bernstein, an assistant professor of leadership and organizational behavior at Harvard Business School, and David Lazer, a professor of political science and computer and information science at Northeastern University, write in their study that “clustering promotes exploration through information space but inhibits exploration through solution space.”
For their experiment, the researchers adapted a US Department of Defense tool for conducting experiments on collaboration and information gathering and customized a 25-minute whodunit game: figuring out the who, what, when, and where of a pending terrorist attack.
Some 400 undergraduate participants split into 16-person groups. Each group was organized into one of four networks, which ranged from highly clustered to minimally clustered. Those in the highly clustered communications networks were five percent more efficient in searching for unique facts or clues. But those who were not densely clustered came up with 17.5 percent more unique theories or solutions.
The study, funded by the DOD and the US Army Research Laboratory, appears in the journal Organization Science.
“The research was just one experiment in a lab,” Steve Lohr writes in a 2014 article about the study in the New York Times, “but it does point to the larger subject of striking a balance between connectedness and isolation in the digital age.”
Sara Rimer of Boston University sat down with Shore to talk about his study and about patterns of collaboration, clustering, network structures, and problem solving—and what he’s looking at next.
What was the goal of your study?
We were testing the effects of communications patterns on the success of organizations in solving problems. We were looking at whether they could both find diverse information and generate diverse interpretations of that information.
Why were the clustered networks better at searching for information or clues?
The clustered network was more coordinated at the group level in finding unique information. There is something sort of natural to that. If you can observe what everyone in the team is doing, you’re not going to reproduce their work. You’ll say ‘I should work on something different; we’ll cover more territory.’
What about the second phase of problem solving that you tested—the search for solutions?
When it comes to interpreting that information to come up with conclusions, coordinating might not necessarily be the best thing. If I see you’ve adopted a solution, I might simply copy yours.
Is that human nature?
When more than one of your neighbors has adopted a solution, you see what’s known as social proof: ‘Everyone thinks this, so it must be true.’ In terms of thinking independently, it’s not the number of collaborators or the amount of communication that matters. It’s the pattern of communication ties that make up the network structure of the whole organization.
What was new about this study in terms of research on networks?
We separated the part of problem-solving that is about coming up with solutions from the part about the information-gathering that are the building blocks for those solutions. Prior researchers hadn’t thought to do that when studying the effects of network structure on problem solving.
Where do you hope people will go from here?
We want this information to be built on. Outside of the lab, it’s hard to disentangle the effect of network structures from a whole bunch of other things, such as the attributes of the individuals in the network or any number of important contextual variables that could have shaped the network in the first place.
We wouldn’t say this gives you the complete solution for all real-world applications, but it gives you an insight—that the structure that helps one part of the problem-solving process might not be the structure to use for the other part of the problem-solving process.
Where coordinated search for information is the goal, you might want to favor a clustered network structure. It will naturally be more efficient and coordinated. But a clustered pattern of ties can lead to homogeneity of interpretation and it’s not necessarily so good for the part where you want to generate diverse solutions.
What can you tell us about how to navigate all this “high communications connectivity,” as you describe it?
The question is how to manage it. We’re adopting communications technologies at an extremely rapid rate, in a sort of breathless way. It can help us in many ways. It can also end up suppressing the diversity of experiences we have, the diversity of ways we understand information. I don’t think connectivity is reducing the diversity of information. I think we’re getting much more information. Just look at Wikipedia—people joke about it, but it’s becoming an amazing repository of diverse information.
But what all this connectivity might not be consistent with is having diverse opinions about that information, drawing diverse conclusions, and coming up with creative applications to use in new settings.
So what can we do to avoid homogeneous thinking in the networked world?
You can design your communications technologies to avoid that. That would definitely be a frontier for future work.
Would you like to study that?
I would love to work on that.
You’re working on two new studies, one using a network model to examine the international music trade, which is forthcoming in the journal Network Science, the other on Twitter and diversity of opinion. Can you tell us a little about what you’ve learned?
The first paper asks how markets for “information goods” come into being. Commodities, like coal or paper, may have a utilitarian value no matter where you go in the world, but an information good, like a song or a book, does not. There could be a huge market for a certain kind of music in one country and no market at all in another.
So this study looked at how new markets for information goods come into being. I found that, historically, new markets for music formed when the potential exporter and the potential importer had both imported from the same third country in the past. The pattern of trade today influences demand for information goods tomorrow.
As for the Twitter paper, it’s currently under review, but we’re looking at whether social media really does support the polarization and echo chambers we hear about so much in the news. Our data allows us to get a broader look at those questions than previous studies have taken.
Source: Boston University