In statistics, a fixed-effect Poisson model is a

Poisson regression In statistics, Poisson regression is a generalized linear model form of regression analysis used to model count data and contingency tables. Poisson regression assumes the response variable ''Y'' has a Poisson distribution, and assumes the logari ...

model used for static

panel data In statistics and econometrics, panel data and longitudinal data are both multi-dimensional data involving measurements over time. Panel data is a subset of longitudinal data where observations are for the same subjects each time. Time series and ...

when the outcome variable is count data. Hausman, Hall, and Griliches pioneered the method in the mid 1980s. Their outcome of interest was the number of patents filed by firms, where they wanted to develop methods to control for the firm

fixed effects In statistics, a fixed effects model is a statistical model in which the model parameters are fixed or non-random quantities. This is in contrast to random effects models and mixed models in which all or some of the model parameters are random va ...

. Linear panel data models use the linear additivity of the fixed effects to difference them out and circumvent the incidental parameter problem. Even though Poisson models are inherently nonlinear, the use of the linear index and the exponential link function lead to multiplicative separability, more specifically : E 'y''_''it'' ∨ ''x''_''i''1... ''x''_''iT'', ''c''_''i'' = ''m''(''x''_''it'', ''c''_''i'', ''b''₀ ) = exp(''c''_''i'' + ''x''_''it'' ''b''₀ ) = ''a''_''i'' exp(''x''_''it'' ''b''₀ ) = ''μ''_''ti'' (1) This formula looks very similar to the standard Poisson premultiplied by the term ''a_i''. As the conditioning set includes the observables over all periods, we are in the static panel data world and are imposing strict exogeneity. Hausman, Hall, and Griliches then use Andersen's conditional Maximum Likelihood methodology to estimate ''b₀''. Using ''n''_''i'' = Σ ''y''_''it'' allows them to obtain the following nice distributional result of ''y_i'' : ''y''_''i'' ∨ ''n''_''i'', ''x''_''i'', ''c''_''i'' ∼ Multinomial (''n''_''i'', ''p''₁ (''x''_''i'', ''b''₀), ..., ''p''_''T'' (''x''_''i'', ''b''₀ )) (2) where :

p_t(x_i, b_0) = \frac. \quad

At this point, the estimation of the fixed-effect Poisson model is transformed in a useful way and can be estimated by maximum-likelihood estimation techniques for multinomial log likelihoods. This is computationally not necessarily very restrictive, but the distributional assumptions up to this point are fairly stringent. Wooldridge provided evidence that these models have nice robustness properties as long as the conditional mean assumption (i.e. equation 1) holds.Wooldridge, J. M. (1999): "Distribution-Free Estimation of Some Nonlinear Panel Data Models." ''Journal of Econometrics'' (90), pp. 77–97 Chamberlain also provided semi-parametric efficiency bounds for these estimators under slightly weaker exogeneity assumptions. However, these bounds are practically difficult to attain, as the proposed methodology needs high-dimensional

nonparametric regression Nonparametric regression is a category of regression analysis in which the predictor does not take a predetermined form but is constructed according to information derived from the data. That is, no parametric form is assumed for the relationship ...

s for attaining these bounds.

References

{{Reflist Econometric models

See also

References