Abstract

A cognitively inspired, agent-based model of engineering design proficiency is introduced in this work. Proficiency is modeled using move selection heuristics and problem space search strategies, both of which were extracted from a prior human subjects study. Agent behavior in the Proficient Simulated Annealing Design Agents (PSADA) Model is validated against human designer behavior and performance. A multi-agent model of design teams is then produced with Monte Carlo simulation methods and it confirmed the previous finding that the most proficient member of a configuration design team has the largest impact (positive or negative) on team performance. Further experiments are conducted with different team characteristics. It is found that the effect of individual team member proficiency is reduced in larger teams, but the highest proficiency team member likely remains the most influential. Nominal teams, where team members do not interact and where the best design is taken as the team output, were found to outperform interacting teams. This was due to high proficiency agents making poor decisions during interactions by switching away from their designs to the designs of their lower proficiency teammates. Conclusions about the role that individual team member proficiency plays in engineering design teams is discussed.

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