zanegbinomial: Zero-Altered Negative Binomial Distribution

Description

Fits a zero-altered negative binomial distribution based on a conditional model involving a binomial distribution and a positive-negative binomial distribution.

Usage

zanegbinomial(lp0="logit", lmunb = "loge", lk = "loge",
              ep0=list(), emunb =list(), ek = list(), ipnb0 = NULL,
              ik = NULL, zero = -3, cutoff = 0.995, method.init=1,
              shrinkage.init=0.95)

Arguments

Value

An object of class "vglmff" (see vglmff-class). The object is used by modelling functions such as vglm, and vgam.
The fitted.values slot of the fitted object, which should be extracted by the generic function fitted, returns the mean $\mu$ which is given by $$\mu = (1-p_0) \mu_{nb} / [1 - (k/(k+\mu_{nb}))^k].$$

Warning

Convergence for this VGAM family function seems to depend quite strongly on providing good initial values.

Inference obtained from summary.vglm and summary.vgam may or may not be correct. In particular, the p-values, standard errors and degrees of freedom may need adjustment. Use simulation on artificial data to check that these are reasonable.

Details

The response $Y$ is zero with probability $p_0$, or $Y$ has a positive-negative binomial distribution with probability $1-p_0$. Thus $0 < p_0 < 1$, which is modelled as a function of the covariates. The zero-altered negative binomial distribution differs from the zero-inflated negative binomial distribution in that the former has zeros coming from one source, whereas the latter has zeros coming from the negative binomial distribution too. The zero-inflated negative binomial distribution is implemented in the VGAM package. Some people call the zero-altered negative binomial a hurdle model.

For one response/species, by default, the three linear/additive predictors are $(logit(p_0), \log(\mu_{nb}), \log(k))^T$. This vector is recycled for multiple species.

References

Welsh, A. H., Cunningham, R. B., Donnelly, C. F. and Lindenmayer, D. B. (1996) Modelling the abundances of rare species: statistical models for counts with extra zeros. Ecological Modelling, 88, 297--308.

Examples

Run this code

zdata = data.frame(x = runif(nn <- 2000))
zdata = transform(zdata, p0 = logit(-1 + 2*x, inverse=TRUE),
                         y1 = rposnegbin(nn, munb=exp(0+2*x), size=exp(1)),
                         y2 = rposnegbin(nn, munb=exp(1+2*x), size=exp(1)))
zdata = transform(zdata, y1 = ifelse(runif(nn) < p0, 0, y1),
                         y2 = ifelse(runif(nn) < p0, 0, y2))
with(zdata, table(y1))
with(zdata, table(y2))

fit = vglm(cbind(y1,y2) ~ x, zanegbinomial, zdata, trace=TRUE)
coef(fit, matrix=TRUE)
head(fitted(fit))
head(predict(fit))

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