|Title||Dynamics of Collective Performance in Collaboration Networks|
|Year of Publication||2016|
|Authors||Amelkin, V., O. Askarisichani, Y. Ji Kim, T. W. Malone, and A. K. Singh|
|Keywords||collaboration networks, performance dynamics, predictive model, team performance|
Today, many complex tasks are assigned to teams, rather than individuals. One reason for teaming up is expansion of the skill coverage of each individual to the joint team skill set. However, numerous empirical studies of human groups suggest that the performance of equally skilled teams can widely differ. Two natural question arise: What are the factors defining team performance? and How can we best predict the performance of a given team on a specific task? While the team members' task-related capabilities constraint the potential for the team's success, the key to understanding team performance is in the analysis of the team process, encompassing the behaviors of the team members during task completion.
In this study, we extend the existing body of research on team process and prediction models of team performance. Specifically, we analyze the dynamics of historical team
Our major qualitative finding is that higher performing teams have well-connected collaboration networks---as indicated by the topological and spectral properties of the latter---which are more robust to perturbations, and where network processes spread more efficiently. Our major quantitative finding is that our predictive models deliver accurate team performance predictions---with the relative prediction error of 15-25%---on a variety of simple tasks, outperforming baseline models that do not capture the micro-level dynamics of team member behaviors. We also show how to use our models in an application, for the purposes of optimal online planning of workload distribution in an organization.
Our findings emphasize the importance of studying the dynamics of team collaboration as the major driver of high performance in teams.