View source: R/temporal_nkde_sf.R
tnkde.mc | R Documentation |
Calculate the Temporal Network Kernel Density Estimate based on a network of lines, sampling points in space and times, and events in space and time with multicore support.
tnkde.mc(
lines,
events,
time_field,
w,
samples_loc,
samples_time,
kernel_name,
bw_net,
bw_time,
adaptive = FALSE,
adaptive_separate = TRUE,
trim_bw_net = NULL,
trim_bw_time = NULL,
method,
div = "bw",
diggle_correction = FALSE,
study_area = NULL,
max_depth = 15,
digits = 5,
tol = 0.1,
agg = NULL,
sparse = TRUE,
grid_shape = c(1, 1),
verbose = TRUE,
check = TRUE
)
lines |
A feature collection of linestrings representing the underlying network. The geometries must be simple Linestrings (may crash if some geometries are invalid) without MultiLineSring. |
events |
events A feature collection of points representing the events on the network. The points will be snapped on the network to their closest line. |
time_field |
The name of the field in events indicating when the events occurred. It must be a numeric field |
w |
A vector representing the weight of each event |
samples_loc |
A feature collection of points representing the locations for which the densities will be estimated. |
samples_time |
A numeric vector indicating when the densities will be sampled |
kernel_name |
The name of the kernel to use. Must be one of triangle, gaussian, tricube, cosine, triweight, quartic, epanechnikov or uniform. |
bw_net |
The network kernel bandwidth (using the scale of the lines), can be a single float or a numeric vector if a different bandwidth must be used for each event. |
bw_time |
The time kernel bandwidth, can be a single float or a numeric vector if a different bandwidth must be used for each event. |
adaptive |
A Boolean, indicating if an adaptive bandwidth must be used. Both spatial and temporal bandwidths are adapted but separately. |
adaptive_separate |
A boolean indicating if the adaptive bandwidths for the time and the network dimensions must be calculated separately (TRUE) or in interaction (FALSE) |
trim_bw_net |
A float, indicating the maximum value for the adaptive network bandwidth |
trim_bw_time |
A float, indicating the maximum value for the adaptive time bandwidth |
method |
The method to use when calculating the NKDE, must be one of simple / discontinuous / continuous (see nkde details for more information) |
div |
The divisor to use for the kernel. Must be "n" (the number of events within the radius around each sampling point), "bw" (the bandwith) "none" (the simple sum). |
diggle_correction |
A Boolean indicating if the correction factor for edge effect must be used. |
study_area |
A feature collection of polygons representing the limits of the study area. |
max_depth |
when using the continuous and discontinuous methods, the calculation time and memory use can go wild if the network has many small edges (area with many of intersections and many events). To avoid it, it is possible to set here a maximum depth. Considering that the kernel is divided at intersections, a value of 10 should yield good estimates in most cases. A larger value can be used without a problem for the discontinuous method. For the continuous method, a larger value will strongly impact calculation speed. |
digits |
The number of digits to retain from the spatial coordinates. It ensures that topology is good when building the network. Default is 3. Too high a precision (high number of digits) might break some connections |
tol |
A float indicating the minimum distance between the events and the lines' extremities when adding the point to the network. When points are closer, they are added at the extremity of the lines. |
agg |
A double indicating if the events must be aggregated within a distance. If NULL, the events are aggregated only by rounding the coordinates. |
sparse |
A Boolean indicating if sparse or regular matrices should be used by the Rcpp functions. These matrices are used to store edge indices between two nodes in a graph. Regular matrices are faster, but require more memory, in particular with multiprocessing. Sparse matrices are slower (a bit), but require much less memory. |
grid_shape |
A vector of two values indicating how the study area must be split when performing the calculus. Default is c(1,1) (no split). A finer grid could reduce memory usage and increase speed when a large dataset is used. When using multiprocessing, the work in each grid is dispatched between the workers. |
verbose |
A Boolean, indicating if the function should print messages about the process. |
check |
A Boolean indicating if the geometry checks must be run before the operation. This might take some times, but it will ensure that the CRS of the provided objects are valid and identical, and that geometries are valid. |
For details, see help(tnkde) and help(nkde)
A matrix with the estimated density for each sample point (rows) at each timestamp (columns). If adaptive = TRUE, the function returns a list with two slots: k (the matrix with the density values) and events (a feature collection of points with the local bandwidths).
# loading the data
data(mtl_network)
data(bike_accidents)
# converting the Date field to a numeric field (counting days)
bike_accidents$Time <- as.POSIXct(bike_accidents$Date, format = "%Y/%m/%d")
start <- as.POSIXct("2016/01/01", format = "%Y/%m/%d")
bike_accidents$Time <- difftime(bike_accidents$Time, start, units = "days")
bike_accidents$Time <- as.numeric(bike_accidents$Time)
# creating sample points
lixels <- lixelize_lines(mtl_network, 50)
sample_points <- lines_center(lixels)
# choosing sample in times (every 10 days)
sample_time <- seq(0, max(bike_accidents$Time), 10)
future::plan(future::multisession(workers=1))
# calculating the densities
tnkde_densities <- tnkde.mc(lines = mtl_network,
events = bike_accidents, time_field = "Time",
w = rep(1, nrow(bike_accidents)),
samples_loc = sample_points,
samples_time = sample_time,
kernel_name = "quartic",
bw_net = 700, bw_time = 60, adaptive = TRUE,
trim_bw_net = 900, trim_bw_time = 80,
method = "discontinuous", div = "bw",
max_depth = 10, digits = 2, tol = 0.01,
agg = 15, grid_shape = c(1,1),
verbose = FALSE)
## make sure any open connections are closed afterward
if (!inherits(future::plan(), "sequential")) future::plan(future::sequential)
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