iita: Inductive Item Tree Analysis

Description

iita can be used to perform one of the three inductive item tree analysis algorithms (original, corrected, and minimized corrected) selectively.

Usage

iita(dataset, v)

Arguments

dataset

a required data frame or matrix consisting of binary, $1$ or $0$, numeric data.

a required numeric giving the inductive item tree analysis algorithm to be performed; v = 1 (minimized corrected), v = 2 (corrected), and v = 3 (original).

Value

diff: a vector giving the diff values corresponding to the (inductively generated) competing quasi orders.
implications: an object of class set representing the solution quasi order (with smallest diff value) under the selected algorithm.
error.rate: a value giving the estimated error rate corresponding to the best fitting quasi order.
selection.set.index: a numeric giving the index of the solution quasi order in the selection set.
v: the version used; v = 1 (minimized corrected), v = 2 (corrected), and v = 3 (original).

Details

The three inductive item tree analysis algorithms are exploratory methods for extracting quasi orders (surmise relations) from data. In each algorithm, competing binary relations are generated (in the same way for all three versions), and a fit measure (differing from version to version) is computed for every relation of the selection set in order to find the quasi order that fits the data best. In all three algorithms, the idea is to estimate the numbers of counterexamples for each quasi order, and to find, over all competing quasi orders, the minimum value for the discrepancy between the observed and expected numbers of counterexamples. The three data analysis methods differ in their choices of estimates for the expected numbers of counterexamples. (For an item pair $(i, j)$, the number of subjects solving item $j$ but failing to solve item $i$, is the corresponding number of counterexamples. Their response patterns contradict the interpretation of $(i, j)$ as `mastering item $j$ implies mastering item $i$.') The algorithms are described in the paper about the DAKS package by Uenlue and Sargin (2010), and in the paper by Sargin and Uenlue (2009).

iita calls ind_gen for constructing the set of competing quasi orders according to the inductive generation procedure. Subject to the selected version to be performed, iita computes the discrepancies between observed and expected numbers of counterexamples under each relation, and finds a quasi order with the minimum discrepancy (diff) value.

A set of implications, an object of the class set, consists of $2$-tuples $(i, j)$ of the class tuple, where a $2$-tuple $(i, j)$ is interpreted as `mastering item $j$ implies mastering item $i$.'

The data must contain only ones and zeros, which encode solving or failing to solve an item, respectively.

References

Sargin, A. and Uenlue, A. (2009) Inductive item tree analysis: Corrections, improvements, and comparisons. Mathematical Social Sciences, 58, 376--392.

Schrepp, M. (1999) On the empirical construction of implications between bi-valued test items. Mathematical Social Sciences, 38, 361--375.

Schrepp, M. (2003) A method for the analysis of hierarchical dependencies between items of a questionnaire. Methods of Psychological Research, 19, 43--79.

Uenlue, A. and Sargin, A. (2010) DAKS: An R package for data analysis methods in knowledge space theory. Journal of Statistical Software, 37(2), 1--31. URL http://www.jstatsoft.org/v37/i02/.

Examples

Run this code

iita(pisa, v = 1)
iita(pisa, v = 3)

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