occurrence {ctmm} | R Documentation |
Calculate a Kriged occurrence distribution estimate
Description
This function calculates an occurrence distribution from telemetry
data and a continuous-time movement model.
Usage
occurrence(data,CTMM,R=list(),SP=NULL,SP.in=TRUE,H=0,variable="utilization",res.time=10,
res.space=10,grid=NULL,cor.min=0.05,dt.max=NULL,buffer=TRUE,...)
Arguments
data |
A |
CTMM |
A |
R |
A named list of raster covariates if |
SP |
SpatialPolygonsDataFrame object for enforcing hard boundaries. |
SP.in |
Locations are assumed to be inside the |
H |
Optional additional bandwidth matrix for future use. |
variable |
Either |
res.time |
Number of temporal grid points per median timestep. |
res.space |
Number of grid points along each axis, relative to the average diffusion (per median timestep) from a stationary point. |
grid |
Optional grid specification via |
cor.min |
Velocity correlation threshold for skipping gaps. |
dt.max |
Maximum absolute gap size (in seconds) for Kriging interpolation. If left |
buffer |
Buffer the observation period, according to the minimum gap specified by |
... |
Not used. |
Details
The arguments cor.min
or dt.max
are used to prevent the interpolation of large gaps, which would bias the estimate to more resemble the movement model than the data. Because cor.min
can produce an empty range with fractal movement models, the larger of the two rules is employed for interpolation.
If buffer=TRUE
, then the data are also extrapolated according to the minimum of the two rules (cor.min
and dt.max
) which is limited to cases where persistence of motion is modeled.
Value
Returns a UD
object containing the sampled grid line locations x
and y
, the probability density and cumulative distribution functions evaluated on the sampled grid locations PDF
& CDF
, the optional bandwidth matrix H
, and the area of each grid cell dA
.
Note
Large gaps have a tendency to slow down computation and blow up the estimate. This can be avoided with the cor.min
or dt.max
arguments.
In the case of coarse grids, the value of PDF
in a grid cell actually corresponds to the average probability density over the entire rectangular cell.
Prior to ctmm
v0.5.6, cor.min
referred to the location correlation, with a default of 50%.
In ctmm
v0.5.6 and above, cor.min
refers to the velocity correlation, with a default of 5%.
Author(s)
C. H. Fleming.
References
C. H. Fleming, W. F. Fagan, T. Mueller, K. A. Olson, P. Leimgruber, J. M. Calabrese, “Estimating where and how animals travel: An optimal framework for path reconstruction from autocorrelated tracking data”, Ecology, 97:3, 576-582 (2016) doi:10.1890/15-1607.1.
C. H. Fleming, D. Sheldon, E. Gurarie, W. F. Fagan, S. LaPoint, J. M. Calabrese, “Kálmán filters for continuous-time movement models”, Ecological Informatics, 40, 8-21 (2017) doi:10.1016/j.ecoinf.2017.04.008.
See Also
Examples
# Load package and data
library(ctmm)
data(buffalo)
Cilla <- buffalo$Cilla
GUESS <- ctmm.guess(Cilla,interactive=FALSE)
FIT <- ctmm.fit(Cilla,GUESS)
# Compute occurence distribution
UD <- occurrence(Cilla,FIT)
# Plot occurrence UD
plot(UD,col.level=NA)