bru_mapper_pipe

ibm_n.bru_mapper_pipe

ibm_n_output.bru_mapper_pipe

ibm_values.bru_mapper_pipe

ibm_jacobian.bru_mapper_pipe

ibm_eval.bru_mapper_pipe

ibm_eval2.bru_mapper_pipe

ibm_simplify.bru_mapper_pipe

Create a pipe mapper, where <code>mappers</code> is a list of mappers,
and the evaluated output of each mapper is handed as the state to the next
mapper.
The <code>input</code> format for the <code>ibm_eval</code> and <code>ibm_jacobian</code> methods is
a list of inputs, one for each mapper.

Facilitates spatial and general latent Gaussian modeling using
integrated nested Laplace approximation via the INLA package (<https://www.r-inla.org>).
Additionally, extends the GAM-like model class to more general nonlinear predictor
expressions, and implements a log Gaussian Cox process likelihood for
modeling univariate and spatial point processes based on ecological survey data.
Model components are specified with general inputs and mapping methods to the
latent variables, and the predictors are specified via general R expressions,
with separate expressions for each observation likelihood model in
multi-likelihood models. A prediction method based on fast Monte Carlo sampling
allows posterior prediction of general expressions of the latent variables.
Ecology-focused introduction in Bachl, Lindgren, Borchers, and Illian (2019)
<doi:10.1111/2041-210X.13168>.

Finn Lindgren

inlabru

Bayesian Latent Gaussian Modelling using INLA and Extensions

Fabian E. Bachl

David L. Borchers

Daniel Simpson

Lindesay Scott-Howard

Seaton Andy

Suen Man Ho

Roudier Pierre

Meehan Tim

Reddy Peddinenikalva Niharika

Perepolkin Dmytro

bru_mapper_pipe function

<dl><dt>mappers</dt>
<dd>A list of <code>bru_mapper</code> objects</dd>
<dt>mapper</dt>
<dd>A mapper S3 object, inheriting from <code>bru_mapper</code>.</dd>
<dt>...</dt>
<dd>Arguments passed on to other methods</dd>
<dt>input</dt>
<dd>Data input for the mapper.</dd>
<dt>state</dt>
<dd>A vector of latent state values for the mapping,
of length <code>ibm_n(mapper, inla_f = FALSE)</code></dd>
<dt>n_state</dt>
<dd>integer giving the length of the state vector for mappers
that have state dependent output size.</dd></dl>

Arguments

<ul>
<li><code>ibm_simplify(bru_mapper_pipe)</code>: Constructs a simplified <code>pipe</code> mapper. For fully linear pipes, calls <code>ibm_linear()</code>.
For partially non-linear pipes, replaces each sequence of linear mappers with a single
<code>bru_mapper_taylor()</code> mapper, while keeping the full list of original mapper
names, allowing the original <code>input</code> structure to be used also with the simplified
mappers, since the <code>taylor</code> mappers are not dependent on inputs.</li>
</ul>

Methods (by generic)

Mapper for linking several mappers in sequence — bru_mapper_pipe

<dl>

<dt>mappers</dt>
<dd>A list of <code>bru_mapper</code> objects</dd>


<dt>mapper</dt>
<dd>A mapper S3 object, inheriting from <code>bru_mapper</code>.</dd>


<dt>...</dt>
<dd>Arguments passed on to other methods</dd>


<dt>input</dt>
<dd>Data input for the mapper.</dd>


<dt>state</dt>
<dd>A vector of latent state values for the mapping,
of length <code>ibm_n(mapper, inla_f = FALSE)</code></dd>


<dt>n_state</dt>
<dd>integer giving the length of the state vector for mappers
that have state dependent output size.</dd>

</dl>

Mapper for linking several mappers in sequence

bru_mapper_pipe: Mapper for linking several mappers in sequence

Description

Usage

Arguments

Methods (by generic)

See Also

Examples