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How to Build High Performing Teams

Government-funded research shows the major factor for success: connectedness.

The growing role of teamwork in the modern world raises a question: What factors contribute to team performance?

A new study investigating the dynamics of teamwork suggests a major factor that predicts performance is connectedness.

Several studies have explored this issue, often focusing on individual personality traits that promote team performance. But team members’ proficiencies only establish the potential for their output. They constrain, rather than define, the actual performance.

Researchers decided to delve further into the dynamics of a successful team. What’s more, they’ve developed theories about how team managers might be able to leverage these factors to improve productivity and overall experience. Their findings appear in the journal PLOS ONE.

LOOK WHO’S TALKING?

“Many of us are interested in team performance,” says co-author Young Ji Kim, an assistant professor of communication at the University of California, Santa Barbara, who studies group collaboration. “How to make teams perform better, more effectively, and understand some factors that contribute to improving team performance and processes.”

The researchers used data collected in 2014 on the interactions within four-person teams as they completed a series of tasks over the course of an hour. After each task, the researchers awarded the teams a score which reflected the overall quality of their output.

They then analyzed the team members’ communication primarily based on chat message timestamps and senders. They modeled interactions as a network where a connection between one individual and another represented how intensively one person communicated with the other.

The group found that the members of high-performing teams communicated well and often between each other. What’s more, most teams with high average performance started performing well early on and performed consistently well throughout the experiment.

They discovered that two network features had particularly strong links to high performance: connectedness and robustness. If you picture a network like a subway system, the degree of connectedness would be the percentage of stops that are linked to each other directly. The system’s robustness represents how many ways you can get from one station to another. In a robust subway system, you could still get around even if multiple lines were closed.

In a well-connected communication network, most people are in direct contact with each of the other group members. And robust collaboration means that even if one team member goes silent, the rest of the team can continue to communicate effectively.

Although the study established a connection between team performance and network features, the researchers have yet to establish which way the underlying relationship goes. “Figuring out the true causal relationship between collaboration dynamics and performance outcomes is probably the biggest [question in] future work,” says Victor Amelkin, the study’s lead author.

The paper’s results suggest that teams should create environments that encourage reciprocal communication between co-workers. For instance, collaboration tools like Slack have lots of features for promoting communication within a team.

BETTER TOOLS MEAN MORE INSIGHTS

The platform the researchers used for this study is currently receiving a major upgrade. The system is called the Platform for Online Group Studies (POGS), and it allows researchers to conduct experiments over the internet.

It’s a challenge to do group research in-person, says Kim. It is difficult to recruit a group of participants together at the same time and standardize procedures from one trial to the next—and logistical problems can ruin your experiment. POGS allows participants to join these studies and work synchronously from anywhere with internet connectivity in pre-programmed group tasks, Kim says.

To expand upon the work, the team will upgrade POGS to POGS 2.0, which will automate task administration and scoring within the experiment. Additionally, the researchers will be able to manipulate the channels of communication between participants by, for instance, creating subgroups within a team or toggling between a person-to-person messaging and team chatrooms. This control will allow the researchers to more directly test causal hypotheses, rather than simply extracting correlations from the data.

Kim’s current work focuses on decomposing team performance into the effects of individuals’ unique contributions versus overall team dynamics. “Team performance is largely the combination and interplay of individual inputs and team-level processes,” she says. To disentangle these two influences, Kim and her team compare performance on tasks that team members can do independently to similar tasks which require a more interdependent approach. POGS 2.0 will include these features, too.

“Social scientists are interested in team dynamics, but our tools to examine the dynamics have been limited,” says Kim. “When I collaborate with Victor and other computer scientists, they come with a lot more sophisticated analytic tools. So through their analysis, we’re able to find a lot more about the fine-grained dynamics of team collaboration.”

The U.S. Army Research Laboratory, the U.S. Army Research Office, and the National Science Foundation funded the research.

Source: University of California, Santa Barbara

This article was originally published in Futurity. Edits have been made to this republication. It has been republished under the Attribution 4.0 International license.