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glmgam

Fit Gamma Generalized Linear Model by Fisher Scoring with Identity Link


Description

Fit a generalized linear model with secure convergence.

Usage

glmgam.fit(X, y, coef.start = NULL, tol = 1e-6, maxit = 50, trace = FALSE)

Arguments

X

design matrix, assumed to be of full column rank. Missing values not allowed.

y

numeric vector of responses. Negative or missing values not allowed.

coef.start

numeric vector of starting values for the regression coefficients

tol

small positive numeric value giving convergence tolerance

maxit

maximum number of iterations allowed

trace

logical value. If TRUE then output diagnostic information at each iteration.

Details

This function implements a modified Fisher scoring algorithm for generalized linear models, similar to the Levenberg-Marquardt algorithm for nonlinear least squares. The Levenberg-Marquardt modification checks for a reduction in the deviance at each step, and avoids the possibility of divergence. The result is a very secure algorithm that converges for almost all datasets.

glmgam.fit is in principle equivalent to glm.fit(X,y,family=Gamma(link="identity")) but with much more secure convergence.

Value

List with the following components:

coefficients

numeric vector of regression coefficients

fitted

numeric vector of fitted values

deviance

residual deviance

iter

number of iterations used to convergence. If convergence was not achieved then iter is set to maxit+1.

Author(s)

Gordon Smyth and Yunshun Chen

References

Dunn, PK, and Smyth, GK (2018). Generalized linear models with examples in R. Springer, New York, NY. doi: 10.1007/978-1-4419-0118-7

See Also

glmgam.fit is called by mixedModel2Fit.

glm is the standard glm fitting function in the stats package.

Examples

y <- rgamma(10, shape=5)
X <- cbind(1, 1:10)
fit <- glmgam.fit(X, y, trace=TRUE)

statmod

Statistical Modeling

v1.4.36
GPL-2 | GPL-3
Authors
Gordon Smyth [cre, aut], Yifang Hu [ctb], Peter Dunn [ctb], Belinda Phipson [ctb], Yunshun Chen [ctb]
Initial release
2021-05-10

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