Nuisance variable

In the theory of stochastic processes in probability theory and statistics, a nuisance variable is a random variable that is fundamental to the probabilistic model, but that is of no particular interest in itself or is no longer of interest: one such usage arises for the Chapman–Kolmogorov equation. For example, a model for a stochastic process may be defined conceptually using intermediate variables that are not observed in practice. If the problem is to derive the theoretical properties, such as the mean, variance and covariances of quantities that would be observed, then the intermediate variables are nuisance variables.[1]

The related term nuisance factor has been used[2] in the context of block experiments, where the terms in the model representing block-means, often called "factors", are of no interest. Many approaches to the analysis of such experiments, particularly where the experimental design is subject to randomization, treat these factors as random variables. More recently, "nuisance variable" has been used in the same context.[3]

"Nuisance variable" has been used in the context of statistical surveys to refer information that is not of direct interest but which needs to be taken into account in an analysis.[4]

In the context of stochastic models, the treatment of nuisance variables does not necessarily involve working with the full joint distribution of all the random variables involved, although this is one approach. Instead, an analysis may proceed directly to the quantities of interest.

The term nuisance variable is sometimes also used in more general contexts, simply to designate those variables that are marginalised over when finding a marginal distribution. In particular, the term may sometimes be used in the context of Bayesian analysis as an alternative to nuisance parameter, given that Bayesian statistics allows parameters to be treated as having probability distributions. However this is usually avoided as the term nuisance parameter has a specific meaning in statistical theory.

References

  1. Eddy, S. R. (2008). Rost, Burkhard, ed. "A Probabilistic Model of Local Sequence Alignment That Simplifies Statistical Significance Estimation". PLoS Computational Biology. 4 (5): e1000069. doi:10.1371/journal.pcbi.1000069. PMC 2396288Freely accessible. PMID 18516236.
  2. Kendall, M.G., Stuart, A. (1968) The Advanced Theory of Statistics, Volume 3: Design and Analysis, and Time-Series, Griffin. Section 38.14, ISBN 0-85264-069-2
  3. Irving B. Weiner, Donald K. Freedheim, John A. Schinka (2003) Handbook of Psychology, Wiley. (Chapter 1) ISBN 0-471-38513-1
  4. Sanderman, R.; Coyne, J. C.; Ranchor, A. V. (2006). "Age: Nuisance variable to be eliminated with statistical control or important concern?". Patient Education and Counseling. 61 (3): 315–316. doi:10.1016/j.pec.2006.04.002. PMID 16731313.
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