Addressing Two Central Issues of Team Interaction Dynamics: The Whole is Greater Than the Sum of Its Parts

Abstract

AbstractIn successful teams, each team member has a distinct taskwork based on individual task roles and responsibilities. Each team member effectively interacts with one another and the technology with which they must interact during the task. Both taskwork and teamwork have situational propensities and entail both ontic and epistemic aspects; thus, understanding how they affect teammates’ taskwork and teamwork becomes crucial to fathom the emergence of team coordination dynamics. This paper conceptually discusses the application of quantum cognition to team coordination; how this approach can improve the understanding of the notion of the whole. The open system model, which incorporates both classical and quantum probability descriptions of a system, is reviewed to describe both ontic and epistemic uncertainty. The open system model's contributions to the entropy of an entangled whole are discussed. Lastly, the conceptual differences between sensing and interaction and the experimental scenarios to study these differences are delineated.KeywordsArtificial IntelligenceHuman-autonomy teamingDecision makingTeam coordinationTeamworkUncertainty