Deviance (statistics)

Not to be confused with Deviation (statistics).

In statistics, deviance is a quality-of-fit statistic for a model that is often used for statistical hypothesis testing. It is a generalization of the idea of using the sum of squares of residuals in ordinary least squares to cases where model-fitting is achieved by maximum likelihood.

Definition

The deviance for a model M₀, based on a dataset y, is defined as:^[1]^[2]

D(y) = -2 \Big( \log \big( p(y\mid\hat \theta_0)\big)-\log \big(p(y\mid\hat \theta_s)\big)\Big).\,

Here $\hat \theta_0$ denotes the fitted values of the parameters in the model M₀, while $\hat \theta_s$ denotes the fitted parameters for the saturated model: both sets of fitted values are implicitly functions of the observations y. Here, the saturated model is a model with a parameter for every observation so that the data are fitted exactly. This expression is simply −2 times the log-likelihood ratio of the reduced model compared to the full model. The deviance is used to compare two models – in particular in the case of generalized linear models (GLM) where it has a similar role to residual variance from ANOVA in linear models (RSS).

Suppose in the framework of the GLM, we have two nested models, M₁ and M₂. In particular, suppose that M₁ contains the parameters in M₂, and k additional parameters. Then, under the null hypothesis that M₂ is the true model, the difference between the deviances for the two models follows an approximate chi-squared distribution with k-degrees of freedom.^[2]

Some usage of the term "deviance" can be confusing. According to Collett:^[3]

"the quantity

-2 \log \big( p(y\mid\hat \theta_0)\big)

is sometimes referred to as a deviance. This is [...] inappropriate, since unlike the deviance used in the context of generalized linear modelling,

-2 \log \big( p(y\mid\hat \theta_0)\big)

does not measure deviation from a model that is a perfect fit to the data." However, since the principal use is in the form of the difference of the deviances of two models, this confusion in definition is unimportant.

Notes

↑ Nelder, J.A.; Wedderburn, R.W.M. (1972). "Generalized Linear Models". Journal of the Royal Statistical Society. Series A (General). 135 (3): 370–384. doi:10.2307/2344614. JSTOR 2344614.
1 2 McCullagh and Nelder (1989)
↑ Collett (2003)Template:Page 76

References

McCullagh, Peter; Nelder, John (1989). Generalized Linear Models, Second Edition. Chapman & Hall/CRC. ISBN 0-412-31760-5.

Collett, David (2003). Modelling Survival Data in Medical Research, Second Edition. Chapman & Hall/CRC. ISBN 1-58488-325-1.

External links

Generalized Linear Models - Edward F. Connor
Lectures notes on Deviance

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