1 / 44

It’s Not Easy Being a Team: Researching Collaboration from All Sides

It’s Not Easy Being a Team: Researching Collaboration from All Sides. INFORMS Speaker Series December 10, 2004. Overview. Definition Team Communication Research Shared Mental Model Data Collection Modeling Teams. Cross-Functional Project Teams. A collection of

wes
Download Presentation

It’s Not Easy Being a Team: Researching Collaboration from All Sides

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. It’s Not Easy Being a Team: Researching Collaboration from All Sides INFORMS Speaker Series December 10, 2004

  2. Overview • Definition • Team Communication Research • Shared Mental Model Data Collection • Modeling Teams

  3. Cross-Functional Project Teams A collection of two or more individuals, representing different functional areas, assembled to work on a time-limited, non-repetitive assignment. Source: Cohen and Bailey, 1997

  4. Overview • Definition • Team Communication Research • Shared Mental Model Data Collection • Modeling Teams

  5. The Team Communication- Performance Relationship  Team members must integrate different frames of reference. Too much information exchanged will overload the team members’ information processing capabilities and will inhibit performance.  Too little communication will not supply enough information and will also lead to low performance.  Current research givesmixedresults about this relationship.

  6. Empirical Research Approach • Questionnaire designed and administered. • Final sample representing 60 teams (630 respondents) in 25 corporations and government organizations – aerospace, automotive, public utilities, electronics and communication. • Response rate – 61%. . • Analysis: Multiple Regression.

  7. Empirical Research Findings

  8. Empirical Research Findings

  9. Simulation Research Approach • Simulation algorithm developed • Simulation coded in Visual C++ • 10,000 simulations performed

  10. Simulation Research Approach

  11. Simulation Research – Findings • Communication Type

  12. Simulation Research – Findings • Project Complexity

  13. Simulation Research – Findings • Communication Media Efficiency

  14. Optimization Research Approach • Communication as a function of performance: pi = axi2- bxi + c xi =  yij + zij • Team Performance Max PT =  pi/N N = size of the team K = level of interdependence, 1< i < K N = 3 K = 2 N = 6 K = 4

  15. Optimization Research Approach • Team size • N = 3, 6, 9, 18 and 27 • Team interdependence • K = 0, 2, 4, 8, 16 and 24 • Member ability • Low, Medium and High ai • 650 models solved

  16. Optimization Research Findings • Team Size

  17. Optimization Research Findings • Team Interdependence

  18. Team Communication The Story • A curvilinear relationship exists (empirical) • The amount of information exchanged is the reason for this relationship (simulation) • Team size and interdependence do not impact this relationship (optimization)

  19. Overview • Definition • Team Communication Research • Shared Mental Model Data Collection • Modeling Teams

  20. Shared Mental Models(SMM) “Knowledge [and belief] structures held by members of a team that enable them to form accurate explanations and expectations for the task, and in turn, to coordinate their actions and adapt their behavior to demands of [their unique situation]. Source: Cannon-Bowers, Salas, and Converse, 1993

  21. Teamwork Orientation Differentiation Integration Taskwork Changes or adjustments required? YES NO SMM Development

  22. Determinants Individual Team Organization Environment Models Team membership Project goals Project work allocation Project team interaction Climate Context SMM Content Requirements

  23. Teamwork SMM MM1 MM2 MMn Orientation Differentiation Integration Taskwork SMM Changes or adjustments required? YES NO Orientation Orientation Differentiation Differentiation Integration Integration Multiple SMM Development Process

  24. SMM ResearchApproach • Class Project Quasi-Experiments • Laboratory Experiments

  25. Quasi Experiment Design • Experimental design • Sample: student teams completing semester long projects • IV: mental models (team organization, goals, work allocation, interaction processes) • DV: team performance • Data collection • Questionnaire (qualitative and quantitative) • Project performance assessment (project grades) • Data analyses • Qualitative and quantitative analyses

  26. Quasi Experiment Results • N=16 teams • Preliminary evidence • Focus of mental models shifts from general to specific over time • Goals: overarching goal to task oriented goals • Organization: structure to who’s who

  27. Quasi Experiment Results

  28. Laboratory Experiment Design • 2x2 Experimental design • SMM development • Virtuality • Variables • IV: mental models (goals, membership, interaction) • DV: team performance • Sample: 3 person student teams

  29. Face-to-Face

  30. Computer-Mediated

  31. Laboratory Experiment Design • 2x2 Experimental design • SMM development • Virtuality • Variables • IV: mental models (goals, membership, interaction) • DV: team performance • Sample: 3 person student teams

  32. Laboratory Experiment Design • Scheduling Task • Task Objective: Create a workforce schedule with the minimum cost in the minimum time • Participant Roles: • Human resource representative • Union representative • Production manager

  33. Laboratory Experiment Design

  34. Laboratory Experiment Design

  35. Laboratory Experiment Results

  36. Laboratory Experiment Results: Face-Face v. Computer Mediated • Interaction Mental Model

  37. Laboratory Experiment Results: Face-Face v. Computer Mediated • Quality Performance – No difference • Time Performance – significant difference

  38. Laboratory Experiment Extension • A set of controlled experiments is planned to determine the effects of • Time pressure • Environmental uncertainty on SMM development and team performance.

  39. Laboratory Experiments Sample Size

  40. Overview • Definition • Team Communication Research • Shared Mental Model Data Collection • Modeling Teams

  41. Modeling Teams • Micro Level • SMM Development Process • SMM Content • Macro Level • Team Behavior

  42. Modeling Team BehaviorApproach • Model developed following systems theory guidelines • Experimental data used to estimate relationships • Model simulated in Matlab

  43. Team ProcessesSimulation Results

  44. Conclusion • Multiple approaches provide complementary views of team phenomenon. • Taken together the results comprehensively inform theory and practice.

More Related