occuPEN_CV: Fit the MacKenzie et al. (2002) Occupancy Model with the...
In rbchan/unmarked: Models for Data from Unmarked Animals
occuPEN_CV R Documentation
Fit the MacKenzie et al. (2002) Occupancy Model with the penalized likelihood methods of Hutchinson et al. (2015) using cross-validation
Description
This function fits the occupancy model of MacKenzie et al
(2002) with the penalized methods of Hutchinson et al (2015) using
k-fold cross-validation to choose the penalty weight.
Usage
occuPEN_CV(formula, data, knownOcc=numeric(0), starts, method="BFGS",
engine=c("C", "R"), lambdaVec=c(0,2^seq(-4,4)),
pen.type = c("Bayes","Ridge"), k = 5, foldAssignments = NA,
...)
Arguments
formula
Double right-hand side formula describing covariates of
detection and occupancy in that order.
data
An unmarkedFrameOccu object
knownOcc
Vector of sites that are known to be occupied. These
should be supplied as row numbers of the y matrix, eg, c(3,8) if
sites 3 and 8 were known to be occupied a priori.
starts
Vector of parameter starting values.
method
Optimization method used by optim.
engine
Either "C" or "R" to use fast C++ code or native R
code during the optimization.
lambdaVec
Vector of values to try for lambda.
pen.type
Which form of penalty to use.
k
Number of folds for k-fold cross-validation.
foldAssignments
Vector containing the number of the fold
that each site falls into. Length of the vector should be equal
to the number of sites, and the vector should contain k unique
values. E.g. for 9 sites and 3 folds, c(1,2,3,1,2,3,1,2,3) or
c(1,1,1,2,2,2,3,3,3).
...
Additional arguments to optim, such as lower and upper
bounds
Details
See unmarkedFrame and unmarkedFrameOccu for a
description of how to supply data to the data argument.
This function wraps k-fold cross-validation around occuPEN_CV
for the "Bayes" and "Ridge" penalties of Hutchinson et al. (2015). The
user may specify the number of folds (k), the values to try
(lambdaVec), and the assignments of sites to folds
(foldAssignments). If foldAssignments is not provided,
the assignments are done pseudo-randomly, and the function attempts to
put some sites with and without positive detections in each fold. This
randomness introduces variability into the results of this function
across runs; to eliminate the randomness, supply foldAssignments.
Value
unmarkedFitOccuPEN_CV object describing the model fit.
Author(s)
Rebecca A. Hutchinson
References
Hutchinson, R. A., J. V. Valente, S. C. Emerson, M. G. Betts, and
T. G. Dietterich. 2015. Penalized Likelihood Methods Improve Parameter
Estimates in Occupancy Models. Methods in Ecology and Evolution. DOI:
10.1111/2041-210X.12368
MacKenzie, D. I., J. D. Nichols, G. B. Lachman, S. Droege,
J. Andrew Royle, and C. A. Langtimm. 2002. Estimating Site Occupancy Rates
When Detection Probabilities Are Less Than One. Ecology 83: 2248-2255.
See Also
unmarked, unmarkedFrameOccu,
occu, occuPEN, nonparboot
Examples
# Simulate occupancy data
set.seed(646)
nSites <- 60
nReps <- 2
covariates <- data.frame(veght=rnorm(nSites),
habitat=factor(c(rep('A', 30), rep('B', 30))))
psipars <- c(-1, 1, -1)
ppars <- c(1, -1, 0)
X <- model.matrix(~veght+habitat, covariates) # design matrix
psi <- plogis(X %*% psipars)
p <- plogis(X %*% ppars)
y <- matrix(NA, nSites, nReps)
z <- rbinom(nSites, 1, psi) # true occupancy state
for(i in 1:nSites) {
y[i,] <- rbinom(nReps, 1, z[i]*p[i])
}
# Organize data and look at it
umf <- unmarkedFrameOccu(y = y, siteCovs = covariates)
obsCovs(umf) <- covariates
head(umf)
summary(umf)
## Not run:
# Fit some models
fmMLE <- occu(~veght+habitat ~veght+habitat, umf)
fmMLE@estimates
fm1penCV <- occuPEN_CV(~veght+habitat ~veght+habitat,
umf,pen.type="Ridge", foldAssignments=rep(1:5,ceiling(nSites/5))[1:nSites])
fm1penCV@lambdaVec
fm1penCV@chosenLambda
fm1penCV@estimates
fm2penCV <- occuPEN_CV(~veght+habitat ~veght+habitat,
umf,pen.type="Bayes",foldAssignments=rep(1:5,ceiling(nSites/5))[1:nSites])
fm2penCV@lambdaVec
fm2penCV@chosenLambda
fm2penCV@estimates
# nonparametric bootstrap for uncertainty analysis:
# bootstrap is wrapped around the cross-validation
fm2penCV <- nonparboot(fm2penCV,B=10) # should use more samples
vcov(fm2penCV,method="nonparboot")
# Mean squared error of parameters:
mean((c(psipars,ppars)-c(fmMLE[1]@estimates,fmMLE[2]@estimates))^2)
mean((c(psipars,ppars)-c(fm1penCV[1]@estimates,fm1penCV[2]@estimates))^2)
mean((c(psipars,ppars)-c(fm2penCV[1]@estimates,fm2penCV[2]@estimates))^2)
## End(Not run)
rbchan/unmarked documentation built on April 3, 2024, 10:11 p.m.
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| occuPEN_CV | R Documentation |
Fit the MacKenzie et al. (2002) Occupancy Model with the penalized likelihood methods of Hutchinson et al. (2015) using cross-validation
Description
This function fits the occupancy model of MacKenzie et al (2002) with the penalized methods of Hutchinson et al (2015) using k-fold cross-validation to choose the penalty weight.
Usage
occuPEN_CV(formula, data, knownOcc=numeric(0), starts, method="BFGS",
engine=c("C", "R"), lambdaVec=c(0,2^seq(-4,4)),
pen.type = c("Bayes","Ridge"), k = 5, foldAssignments = NA,
...)Arguments
formula |
Double right-hand side formula describing covariates of detection and occupancy in that order. |
data |
An |
knownOcc |
Vector of sites that are known to be occupied. These should be supplied as row numbers of the y matrix, eg, c(3,8) if sites 3 and 8 were known to be occupied a priori. |
starts |
Vector of parameter starting values. |
method |
Optimization method used by |
engine |
Either "C" or "R" to use fast C++ code or native R code during the optimization. |
lambdaVec |
Vector of values to try for lambda. |
pen.type |
Which form of penalty to use. |
k |
Number of folds for k-fold cross-validation. |
foldAssignments |
Vector containing the number of the fold that each site falls into. Length of the vector should be equal to the number of sites, and the vector should contain k unique values. E.g. for 9 sites and 3 folds, c(1,2,3,1,2,3,1,2,3) or c(1,1,1,2,2,2,3,3,3). |
... |
Additional arguments to optim, such as lower and upper bounds |
Details
See unmarkedFrame and unmarkedFrameOccu for a
description of how to supply data to the data argument.
This function wraps k-fold cross-validation around occuPEN_CV
for the "Bayes" and "Ridge" penalties of Hutchinson et al. (2015). The
user may specify the number of folds (k), the values to try
(lambdaVec), and the assignments of sites to folds
(foldAssignments). If foldAssignments is not provided,
the assignments are done pseudo-randomly, and the function attempts to
put some sites with and without positive detections in each fold. This
randomness introduces variability into the results of this function
across runs; to eliminate the randomness, supply foldAssignments.
Value
unmarkedFitOccuPEN_CV object describing the model fit.
Author(s)
Rebecca A. Hutchinson
References
Hutchinson, R. A., J. V. Valente, S. C. Emerson, M. G. Betts, and T. G. Dietterich. 2015. Penalized Likelihood Methods Improve Parameter Estimates in Occupancy Models. Methods in Ecology and Evolution. DOI: 10.1111/2041-210X.12368
MacKenzie, D. I., J. D. Nichols, G. B. Lachman, S. Droege, J. Andrew Royle, and C. A. Langtimm. 2002. Estimating Site Occupancy Rates When Detection Probabilities Are Less Than One. Ecology 83: 2248-2255.
See Also
unmarked, unmarkedFrameOccu,
occu, occuPEN, nonparboot
Examples
# Simulate occupancy data
set.seed(646)
nSites <- 60
nReps <- 2
covariates <- data.frame(veght=rnorm(nSites),
habitat=factor(c(rep('A', 30), rep('B', 30))))
psipars <- c(-1, 1, -1)
ppars <- c(1, -1, 0)
X <- model.matrix(~veght+habitat, covariates) # design matrix
psi <- plogis(X %*% psipars)
p <- plogis(X %*% ppars)
y <- matrix(NA, nSites, nReps)
z <- rbinom(nSites, 1, psi) # true occupancy state
for(i in 1:nSites) {
y[i,] <- rbinom(nReps, 1, z[i]*p[i])
}
# Organize data and look at it
umf <- unmarkedFrameOccu(y = y, siteCovs = covariates)
obsCovs(umf) <- covariates
head(umf)
summary(umf)
## Not run:
# Fit some models
fmMLE <- occu(~veght+habitat ~veght+habitat, umf)
fmMLE@estimates
fm1penCV <- occuPEN_CV(~veght+habitat ~veght+habitat,
umf,pen.type="Ridge", foldAssignments=rep(1:5,ceiling(nSites/5))[1:nSites])
fm1penCV@lambdaVec
fm1penCV@chosenLambda
fm1penCV@estimates
fm2penCV <- occuPEN_CV(~veght+habitat ~veght+habitat,
umf,pen.type="Bayes",foldAssignments=rep(1:5,ceiling(nSites/5))[1:nSites])
fm2penCV@lambdaVec
fm2penCV@chosenLambda
fm2penCV@estimates
# nonparametric bootstrap for uncertainty analysis:
# bootstrap is wrapped around the cross-validation
fm2penCV <- nonparboot(fm2penCV,B=10) # should use more samples
vcov(fm2penCV,method="nonparboot")
# Mean squared error of parameters:
mean((c(psipars,ppars)-c(fmMLE[1]@estimates,fmMLE[2]@estimates))^2)
mean((c(psipars,ppars)-c(fm1penCV[1]@estimates,fm1penCV[2]@estimates))^2)
mean((c(psipars,ppars)-c(fm2penCV[1]@estimates,fm2penCV[2]@estimates))^2)
## End(Not run)
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