1999
DOI: 10.3758/bf03210812
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Theoretical and empirical review of multinomial process tree modeling

Abstract: We review a current and popular class of cognitive models called multinomial processing tree (MPT) models. MPTmodels are simple, substantively motivated statistical models that can be applied to categorical data. They are useful as data-analysis tools for measuring underlying or latent cognitive capacities and as simple models for representing and testing competing psychological theories. Weformally describe the cognitive structure and parametric properties of the class of MPT models and provide an inferential… Show more

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Cited by 596 publications
(619 citation statements)
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References 159 publications
(226 reference statements)
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“…In multinomial models, separate parameters represent the probabilities with which separate processes occur. Processes have a branching pattern, whereby the outcome of processes at various steps determines which branch is followed and, eventually, which category of response is given (for a review, see Batchelder & Riefer, 1999). Figure 2 provides a detailed depiction of the processes in the capture model, the model that was used to characterize performance in all four experiments.…”
Section: Rationale and Methodsmentioning
confidence: 99%
“…In multinomial models, separate parameters represent the probabilities with which separate processes occur. Processes have a branching pattern, whereby the outcome of processes at various steps determines which branch is followed and, eventually, which category of response is given (for a review, see Batchelder & Riefer, 1999). Figure 2 provides a detailed depiction of the processes in the capture model, the model that was used to characterize performance in all four experiments.…”
Section: Rationale and Methodsmentioning
confidence: 99%
“…Outside of the context of basic statistical models, the Savage-Dickey method could also be used for Bayesian hypothesis testing in a range of relatively complex mathematical process models such as the Expectancy-Valence model for the Iowa Gambling Task (Busemeyer & Stout, 2002;Wetzels, Vandekerckhove, Tuerlinckx, & Wagenmakers, in press), the Ratcliff diffusion model for response times and accuracy (Vandekerckhove, Tuerlinckx, & Lee, 2008;Wagenmakers, 2009), models of categorization such as ALCOVE (Kruschke, 1992), multinomial processing trees (Batchelder & Riefer, 1999), and the ACT-R model (Weaver, 2008).…”
Section: Concluding Commentsmentioning
confidence: 99%
“…In a singletrial experiment, a multinomial model is the starting vector and response vector of a Markov chain, and in a multi-trial experiment, a multinomial model is the starting vector, response vector, and transition matrix of a Markov chain (see Riefer & Batchelder, 1988). Thus, such multinomial models as process dissociation (Jacoby, 1991), conjoint recognition (Brainerd, Reyna, & Mojardin, 1999), and source monitoring (Batchelder & Riefer, 1999) are all finite Markov chains.…”
Section: Markov Models Of Memory and Cognitionmentioning
confidence: 99%