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VGAM (version 0.9-1)

nbcanlink: Negative binomial canonical link function

Description

Computes the negative binomial canonical link transformation, including its inverse and the first two derivatives.

Usage

nbcanlink(theta, size = NULL, wrt.eta = NULL, bvalue = NULL,
          inverse = FALSE, deriv = 0, short = TRUE, tag = FALSE)

Arguments

theta
Numeric or character. Typically the mean of a negative binomial (NB) distribution. See below for further details.
size, wrt.eta
size contains the $k$ matrix which must be of a conformable dimension as theta. Also, if deriv > 0 then wrt.eta is either 1 or 2 (1 for with respect to the first linear predictor, and 2 for with
bvalue
Details at Links.
inverse, deriv, short, tag
Details at Links.

Value

  • For deriv = 0, the above equation when inverse = FALSE, and if inverse = TRUE then kmatrix / expm1(-theta). For deriv = 1, then the function returns d theta / d eta as a function of theta if inverse = FALSE, else if inverse = TRUE then it returns the reciprocal.

Warning

This function currently does not work very well with negbinomial! The NB-C model is sensitive to the initial values and may converge to a local solution. Pages 210 and 309 of Hilbe (2011) notes convergence difficulties (of Newton-Raphson type algorithms), and this applies here. This function should work okay with negbinomial.size. Currently trying something like imethod = 3 or imu, stepsize = 0.5, maxit = 100, zero = -2 should help; see the example below.

Details

The negative binomial (NB) canonical link is $\log(\theta/ (\theta + k))$ where $\theta$ is the mean of a NB distribution. The canonical link is used for theoretically relating the NB to GLM class.

This link function was specifically written for negbinomial and negbinomial.size, and should not be used elsewhere (these VGAM family functions have code that specifically handles nbcanlink().)

References

Yee, T. W. (2013) Reduced-rank vector generalized linear models with two linear predictors. Computational Statistics and Data Analysis.

Hilbe, J. M. (2011) Negative Binomial Regression, 2nd Edition. Cambridge: Cambridge University Press.

See Also

negbinomial, negbinomial.size.

Examples

Run this code
nbcanlink("mu", short = FALSE)

mymu <- 1:10 # Test some basic operations:
kmatrix <- matrix(runif(length(mymu)), length(mymu), 1)
eta1 <- nbcanlink(mymu, size = kmatrix)
ans2 <- nbcanlink(eta1, size = kmatrix, inverse = TRUE)
max(abs(ans2 - mymu)) # Should be 0

mymu <- c(seq(0.5, 10, length = 101))
kmatrix <- matrix(10, length(mymu), 1)
plot(nbcanlink(mymu, size = kmatrix) ~ mymu, las = 1,
     type = "l", col = "blue", lwd = 1.5, xlab = expression({mu}))

# Estimate the parameters from some simulated data (see Warning section)
set.seed(123)
ndata <- data.frame(x2 = runif(nn <- 1000 ))
size1 <- exp(1); size2 <- exp(2)
ndata <- transform(ndata, eta1 = -1 - 2 * x2, # eta1 < 0
                          size1 = size1,
                          size2 = size2)
ndata <- transform(ndata,
            mu1 = nbcanlink(eta1, size = size1, inv = TRUE),
            mu2 = nbcanlink(eta1, size = size2, inv = TRUE))
ndata <- transform(ndata, y1 = rnbinom(nn, mu = mu1, size = size1),
                          y2 = rnbinom(nn, mu = mu2, size = size2))
head(ndata)
summary(ndata)

fit <- vglm(cbind(y1, y2) ~ x2, negbinomial("nbcanlink", imethod = 3),
            stepsize = 0.5, ndata, # Deliberately slow the convergence rate
            maxit = 100, trace = TRUE) # Warning: may converge to a local soln
coef(fit, matrix = TRUE)
summary(fit)

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