Generalization of the Theory of Signal Detectability to n-Event m-Dimensional Forced-Choice Tasks

Author: Scurfield B.K.

Source: Journal of Mathematical Psychology, Volume 42, Number 1, March 1998 , pp. 5-31(27)

Publisher: Academic Press

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Abstract:

This paper presents a generalization of the theory of signal detectability to n-event forced-choice tasks where the evidence can be modelled by an m-dimensional vector. The generalization is based on a nonparametric model that encompasses decision rules for maximizing the proportion of correct decisions. The model assumes that observers identify events by partitioning a decision space of dimension n1 with a template. Translating the template by varying the decisional bias yields a set of receiver operating characteristic (ROC) surfaces. Following B. K. Scurfield 1996, J. Math. Psych. 40, 253-269, event-discriminability is defined by considering the Shannon entropy of the volumes under the ROC surfaces. The resultant discriminability measure is interpreted with respect to the random vectors assumed to be associated with the decision space and shown to equate with the channel capacity of an observer in a multiple-interval forced-choice task. Copyright 1998 Academic Press.

Language: English

Document Type: Research article

Affiliations: Victoria University of Wellington, Wellington, New Zealand:

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