Frontiers in Psychology (Sep 2014)

Measurement invariance within and between subjects: A distinct problem in testing the equivalence of intra- and inter-individual model structures.

  • Janne eAdolf,
  • Noémi eSchuurman,
  • Peter eBorkenau,
  • Denny eBorsboom,
  • Conor Vivian Dolan

DOI
https://doi.org/10.3389/fpsyg.2014.00883
Journal volume & issue
Vol. 5

Abstract

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We address the question of equivalence between modeling results obtained on intra-individual and inter-individual levels of psychometric analysis. Our focus is on the concept of measurement invariance and the role it may play in this context. We discuss this in general against the background of the latent variable paradigm, complemented by an operational demonstration in terms of a linear state-space model, i.e., a time series model with latent variables. Implemented in a multiple-occasion and multiple-subject setting, the model simultaneously accounts for intra-individual and inter-individual differences. We consider the conditions – in terms of invariance constraints – under which modeling results are generalizable (a) over time within subjects, (b) over subjects within occasions, and (c) over time and subjects simultaneously thus implying an equivalence-relationship between both dimensions. Since we distinguish the measurement model from the structural model governing relations between the latent variables of interest, we decompose the invariance constraints into those that involve structural parameters and those that involve measurement parameters and relate to measurement invariance. Within the resulting taxonomy of models, we show that, under the condition of measurement invariance over time and subjects, there exists a form of structural equivalence between levels of analysis that is distinct from full structural equivalence, i.e., ergodicity. We demonstrate how measurement invariance between and within subjects can be tested in the context of high-frequency repeated measures in personality research. Finally, we discuss problems of measurement variance in relation to problems of non-ergodicity as currently discussed and approached in the literature.

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