computePredictedValues: computePredictedValues
In Hmsc: Hierarchical Model of Species Communities
View source: R/computePredictedValues.R
computePredictedValues R Documentation
computePredictedValues
Description
Computes predicted values from the fitted Hmsc model
Usage
computePredictedValues(
hM,
partition = NULL,
partition.sp = NULL,
start = 1,
thin = 1,
Yc = NULL,
mcmcStep = 1,
expected = TRUE,
initPar = NULL,
nParallel = 1,
nChains = length(hM$postList),
updater = list(),
verbose = hM$verbose,
alignPost = TRUE
)
pcomputePredictedValues(
hM,
partition = NULL,
partition.sp = NULL,
start = 1,
thin = 1,
Yc = NULL,
mcmcStep = 1,
expected = TRUE,
initPar = NULL,
nParallel = 1,
useSocket = .Platform$OS.type == "windows",
nChains = length(hM$postList),
updater = list(),
verbose = nParallel == 1,
alignPost = TRUE
)
Arguments
hM
a fitted Hmsc model object
partition
partition vector for cross-validation created by createPartition
partition.sp
species partitioning vector for conditional cross-validation
start
index of first MCMC sample included
thin
thinning interval of posterior distribution
Yc
response matrix on which the predictions are to be conditioned
mcmcStep
number of MCMC steps used to make conditional predictions
expected
whether expected values (TRUE) or realizations (FALSE) are to be predicted
initPar
a named list of parameter values used for initialization of MCMC states
nParallel
number of parallel processes by which the chains are executed
nChains
number of independent MCMC chains to be run
updater
a named list, specifying which conditional updaters should be omitted
verbose
the interval between MCMC steps printed to the console
alignPost
boolean flag indicating whether the posterior of each chains should be aligned
useSocket
(logical) use socket clusters in parallel processing;
these can be used in all operating systems, but they are
usually slower than forking which can only be used
in non-Windows operating systems (macOS, Linux, unix-like
systems).
Details
There are two alternative functions computePredictedValues
and pcomputePredictedValues. Function
pcomputePredictedValues uses more aggressive parallelization
and can be much faster when partition is used. Function
computePredictedValues can run chains of each
sampleMcmc partition in parallel, but
pcomputePredictedValues can run each partition fold times
chain in parallel (if hardware and operating systems
permit). Function pcomputePredictedValues is still
experimental, and therefore we provide both the old and new
functions, but the old functions is scheduled to be removed in the
future. Species partitions are not yet parallelized, and they can
be very slow, especially with many mcmcSteps.
If the option partition is not used, the posterior predictive distribution is based on the model
fitted to the full data. If the option partition is used but partition.sp is not used, the posterior predictive distribution
is based on cross-validation over the sampling units. If partition.sp is additionally used, then, when predictions are made for
each fold of the sampling units, the predictions are done separately for each fold of species. When making the predictions
for one fold of species, the predictions are conditional on known occurrences (those observed in the data) of the species
belonging to the other folds. If partition.sp is used, the parameter mcmcStep should be set high enough to obtain
appropriate conditional predictions. The option Yc can be used alternatively to partition.sp if the conditioning is to be done
based on a fixed set of data (independently of which sampling unit and species the predictions are made for).
Value
an array of model predictions, made for each posterior sample
See Also
predict.Hmsc
Examples
# Compute predicted values using a previously fitted HMSC model
preds = computePredictedValues(TD$m)
## Not run:
# Compute predicted values for a previously fitted HMSC model using 2 folds
partition = createPartition(TD$m, nfolds = 2)
predsCV1 = computePredictedValues(TD$m,partition=partition)
# Compute conditional predictions for a previously fitted HMSC model using 2 folds
partition = createPartition(TD$m, nfolds = 2)
predsCV2 = computePredictedValues(TD$m, partition = partition,
partition.sp = 1:TD$m$ns, mcmcStep = 100)
## End(Not run)
Hmsc documentation built on Aug. 11, 2022, 5:11 p.m.
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View source: R/computePredictedValues.R
| computePredictedValues | R Documentation |
computePredictedValues
Description
Computes predicted values from the fitted Hmsc model
Usage
computePredictedValues( hM, partition = NULL, partition.sp = NULL, start = 1, thin = 1, Yc = NULL, mcmcStep = 1, expected = TRUE, initPar = NULL, nParallel = 1, nChains = length(hM$postList), updater = list(), verbose = hM$verbose, alignPost = TRUE ) pcomputePredictedValues( hM, partition = NULL, partition.sp = NULL, start = 1, thin = 1, Yc = NULL, mcmcStep = 1, expected = TRUE, initPar = NULL, nParallel = 1, useSocket = .Platform$OS.type == "windows", nChains = length(hM$postList), updater = list(), verbose = nParallel == 1, alignPost = TRUE )
Arguments
hM |
a fitted |
partition |
partition vector for cross-validation created by |
partition.sp |
species partitioning vector for conditional cross-validation |
start |
index of first MCMC sample included |
thin |
thinning interval of posterior distribution |
Yc |
response matrix on which the predictions are to be conditioned |
mcmcStep |
number of MCMC steps used to make conditional predictions |
expected |
whether expected values (TRUE) or realizations (FALSE) are to be predicted |
initPar |
a named list of parameter values used for initialization of MCMC states |
nParallel |
number of parallel processes by which the chains are executed |
nChains |
number of independent MCMC chains to be run |
updater |
a named list, specifying which conditional updaters should be omitted |
verbose |
the interval between MCMC steps printed to the console |
alignPost |
boolean flag indicating whether the posterior of each chains should be aligned |
useSocket |
(logical) use socket clusters in parallel processing; these can be used in all operating systems, but they are usually slower than forking which can only be used in non-Windows operating systems (macOS, Linux, unix-like systems). |
Details
There are two alternative functions computePredictedValues
and pcomputePredictedValues. Function
pcomputePredictedValues uses more aggressive parallelization
and can be much faster when partition is used. Function
computePredictedValues can run chains of each
sampleMcmc partition in parallel, but
pcomputePredictedValues can run each partition fold times
chain in parallel (if hardware and operating systems
permit). Function pcomputePredictedValues is still
experimental, and therefore we provide both the old and new
functions, but the old functions is scheduled to be removed in the
future. Species partitions are not yet parallelized, and they can
be very slow, especially with many mcmcSteps.
If the option partition is not used, the posterior predictive distribution is based on the model
fitted to the full data. If the option partition is used but partition.sp is not used, the posterior predictive distribution
is based on cross-validation over the sampling units. If partition.sp is additionally used, then, when predictions are made for
each fold of the sampling units, the predictions are done separately for each fold of species. When making the predictions
for one fold of species, the predictions are conditional on known occurrences (those observed in the data) of the species
belonging to the other folds. If partition.sp is used, the parameter mcmcStep should be set high enough to obtain
appropriate conditional predictions. The option Yc can be used alternatively to partition.sp if the conditioning is to be done
based on a fixed set of data (independently of which sampling unit and species the predictions are made for).
Value
an array of model predictions, made for each posterior sample
See Also
predict.Hmsc
Examples
# Compute predicted values using a previously fitted HMSC model preds = computePredictedValues(TD$m) ## Not run: # Compute predicted values for a previously fitted HMSC model using 2 folds partition = createPartition(TD$m, nfolds = 2) predsCV1 = computePredictedValues(TD$m,partition=partition) # Compute conditional predictions for a previously fitted HMSC model using 2 folds partition = createPartition(TD$m, nfolds = 2) predsCV2 = computePredictedValues(TD$m, partition = partition, partition.sp = 1:TD$m$ns, mcmcStep = 100) ## End(Not run)
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