J. A. Nelder scite author profile

A method is described for the minimization of a function of n variables, which depends on the comparison of function values at the (n 4-1) vertices of a general simplex, followed by the replacement of the vertex with the highest value by another point. The simplex adapts itself to the local landscape, and contracts on to the final minimum. The method is shown to be effective and computationally compact. A procedure is given for the estimation of the Hessian matrix in the neighbourhood of the minimum, needed in statistical estimation problems.

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Generalized Linear Models

McCullagh¹,

Nelder²

1989

16,737

7,209

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Generalized Linear Models

McCullagh¹,

Nelder²

1983

3,875

2,870

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Generalized Linear Models

Nelder

Wedderburn

1972

Journal of the Royal Statistical Society. Series A (General)

6,125

2,787

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The technique of iterative weighted linear regression can be used to obtain maximum likelihood estimates of the parameters with observations distributed according to some exponential family and systematic effects that can be made linear by a suitable transformation. A generalization of the analysis of variance is given for these models using log-likelihoods. These generalized linear models are illustrated by examples relating to four distributions; the Normal, Binomial (probit analysis, etc.), Poisson (contingency tables) and gamma (variance components). The implications of the approach in designing statistics courses are discussed.

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Double Hierarchical Generalized Linear Models (With Discussion)

2006

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Summary. We propose a class of double hierarchical generalized linear models in which random effects can be specified for both the mean and dispersion. Heteroscedasticity between clusters can be modelled by introducing random effects in the dispersion model, as is heterogeneity between clusters in the mean model. This class will, among other things, enable models with heavy-tailed distributions to be explored, providing robust estimation against outliers. The h-likelihood provides a unified framework for this new class of models and gives a single algorithm for fitting all members of the class. This algorithm does not require quadrature or prior probabilities.

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J. A. Nelder

A Simplex Method for Function Minimization

Generalized Linear Models

Generalized Linear Models

Generalized Linear Models

Double Hierarchical Generalized Linear Models (With Discussion)

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