Title :
Distributed detection in teams with partial information: a normative-descriptive model
Author :
Pete, A. ; Pattipati, K.R. ; Kleinman, D.L.
Author_Institution :
Dept. of Electr. & Syst. Eng., Connecticut Univ., Storrs, CT, USA
Abstract :
A hierarchical team faced with a binary detection problem, wherein decision makers (DMs) have access to different subsets of noise-corrupted information about the true state of the environment, is considered. A normative model is developed that aggregates the individual expertise of DMs at different levels of the hierarchy. The resulting team expertise is characterized in the form of a team receiver operating characteristic (ROC) curve, thereby replacing the team by an equivalent single decision-making node. The normative model is tested against human teams in a laboratory experiment. The team objective is to minimize the cost of errors in the final decision at the primary DM, where the cost structure and the information structure are treated as independent variables. Discrepancies between normative predictions and experimental results are attributed to inherent limitations and cognitive biases of humans
Keywords :
decision theory; psychology; binary detection; cognitive biases; decision makers; distributed detection; hierarchical team; human teams; individual expertise; laboratory experiment; noise-corrupted information; normative predictions; normative-descriptive model; partial information; team expertise; team receiver operating characteristic curve; Control systems; Costs; Decision making; Diseases; Face detection; Humans; Military computing; Power system modeling; Sequential analysis; System testing;
Journal_Title :
Systems, Man and Cybernetics, IEEE Transactions on
