make.jagsboralnullmodel | R Documentation |
This function is designed to write models with no latent variables i.e., so-called "null" models.
make.jagsboralnullmodel(family, num.X = 0, X.ind = NULL, num.traits = 0,
which.traits = NULL, row.eff = "none", row.ids = NULL, ranef.ids = NULL,
offset = NULL, trial.size = 1, n, p, model.name = NULL,
prior.control = list(type = c("normal","normal","normal","uniform"),
hypparams = c(10, 10, 10, 30), ssvs.index = -1, ssvs.g = 1e-6,
ssvs.traitsindex = -1))
family |
Either a single element, or a vector of length equal to the number of columns in the response matrix. The former assumes all columns of the response matrix come from this distribution. The latter option allows for different distributions for each column of the response matrix. Elements can be one of "binomial" (with probit link), "poisson" (with log link), "negative.binomial" (with log link), "normal" (with identity link), "lnormal" for lognormal (with log link), "tweedie" (with log link), "exponential" (with log link), "gamma" (with log link), "beta" (with logit link), "ordinal" (cumulative probit regression), "ztpoisson" (zero truncated Poisson with log link), "ztnegative.binomial" (zero truncated negative binomial with log link). Please see |
num.X |
Number of columns in the covariate matrix. Defaults to 0, in which case it is assumed that no covariates are included in the model. Recall that no intercept is included in the covariate matrix. |
X.ind |
An matrix of 1s and 0s, indicating whether a particular covariate should be included (1) or excluded (0) in the mean structure of a particular response. The matrix should the number of rows equal to the number of columns in the response matrix, and the number of columns equal to the number of columns in the covariate matrix. Defaults to |
num.traits |
Number of columns in the trait matrix. Defaults to 0, in which case it is assumed no traits are included in model. Recall that no intercept is included in the trait matrix. |
which.traits |
A list of length equal to (number of columns in the covariate matrix + 1), informing which columns of the trait matrix the response-specific intercepts and each of the response-specific regression coefficients should be regressed against. The first element in the list applies to the response-specific intercept, while the remaining elements apply to the regression coefficients. Each element of For example, if Defaults to |
row.eff |
Single element indicating whether row effects are included as fixed effects ("fixed"), random effects ("random") or not included ("none") in the fitted model. If fixed effects, then for parameter identifiability the first row effect is set to zero, which analogous to acting as a reference level when dummy variables are used. If random effects, they are drawn from a normal distribution with mean zero and unknown standard deviation. Defaults to "none". |
row.ids |
A matrix with the number of rows equal to the number of rows in the response matrix, and the number of columns equal to the number of row effects to be included in the model. Element |
ranef.ids |
A matrix with the number of rows equal to the number of rows in the response matrix, and the number of columns equal to the number of random intercepts to be included in the model. Element |
offset |
A matrix with the same dimensions as the response matrix, specifying an a-priori known component to be included in the linear predictor during fitting. Defaults to |
trial.size |
Either equal to a single element, or a vector of length equal to the number of columns in y. If a single element, then all columns assumed to be binomially distributed will have trial size set to this. If a vector, different trial sizes are allowed in each column of y. The argument is ignored for all columns not assumed to be binomially distributed. Defaults to 1, i.e. Bernoulli distribution. |
n |
The number of rows in the response matrix. |
p |
The number of columns in the response matrix. |
model.name |
Name of the text file that the JAGS model is written to. Defaults to |
prior.control |
A list of parameters for controlling the prior distributions. These include:
|
This function is automatically executed inside boral
, and therefore does not need to be run separately before fitting the model. It can however be run independently if one is: 1) interested in what the actual JAGS file for a particular model looks like, 2) wanting to modify a basic JAGS model file to construct more complex model e.g., include environmental variables.
Please note that boral
currently does not allow the user to manually enter a script to be run.
When running the main function boral
, setting save.model = TRUE
which automatically save the JAGS model file as a text file (with name based on the model.name
) in the current working directory.
A text file is created, containing the JAGS model to be called by the boral function for entering into jags. This file is automatically deleted once boral has finished running unless save.model = TRUE
.
Francis K.C. Hui [aut, cre], Wade Blanchard [aut]
Maintainer: Francis K.C. Hui <fhui28@gmail.com>
Gelman et al. (2008). A weakly informative default prior distribution for logistic and other regression models. The Annals of Applied Statistics, 2, 1360-1383.
make.jagsboralmodel
for writing JAGS scripts for models with one or more latent variables.
library(mvabund) ## Load a dataset from the mvabund package
data(spider)
y <- spider$abun
n <- nrow(y)
p <- ncol(y)
testpath <- file.path(tempdir(), "jagsboralmodel.txt")
## Create a "null" model JAGS script, where distributions alternative
## between Poisson and negative distributions
## across the rows of y.
make.jagsboralnullmodel(family = rep(c("poisson","negative.binomial"),length=p),
num.X = ncol(spider$x), row.eff = "fixed", n = n, p = p,
model.name = testpath)
## Create a "null" model JAGS script, where distributions are all negative
## binomial distributions and covariates will be included!
make.jagsboralnullmodel(family = "negative.binomial",
num.X = ncol(spider$x), n = n, p = p,
model.name = testpath)
## Have a look at the JAGS model file for a model involving traits,
## based on the ants data from mvabund.
library(mvabund)
data(antTraits)
y <- antTraits$abun
X <- as.matrix(antTraits$env)
## Include only traits 1, 2, and 5, plus an intercept
traits <- as.matrix(antTraits$traits[,c(1,2,5)])
## Please see help file for boral regarding the use of which.traits
example_which_traits <- vector("list",ncol(X)+1)
for(i in 1:length(example_which_traits))
example_which_traits[[i]] <- 1:ncol(traits)
## Not run:
## NOTE: The values below MUST NOT be used in a real application;
## they are only used here to make the examples run quick!!!
example_mcmc_control <- list(n.burnin = 10, n.iteration = 100,
n.thin = 1)
fit_traits <- boral(y, X = X, traits = traits, which.traits = example_which_traits,
family = "negative.binomial", model.name = testpath,
mcmc.control = example_mcmc_control, do.fit = FALSE)
## End(Not run)
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