Wrapper that computes cell halfwidth for a given beta value, and then
builds a grid of hexagonal cells (call to MAPI_GridHexagonal
).
MAPI_GridAuto(samples, crs, beta = 0.25, buf = 0)
a data.frame with names and geographical coordinates of samples. Column names must be: 'ind', 'x', 'y'. Optional column 'errRad' with an error radius for sample locations (eg. GPS uncertainty). Coordinates must be projected (not latitude/longitude).
coordinate reference system: integer with the EPSG code, or character with proj4string. When using dummy coordinates (eg. simulation output) you may use EPSG:3857 (pseudo-Mercator) for example. This allows computation but, of course, has no geographical meaning.
A value depending on sampling regularity: 0.5 for regular sampling, 0.25 for random sampling (Hengl, 2006).
optional. This parameter allows to expand or shrink the grid by a number of units in the same reference system as the sample geographical coordinates (0 by default).
a spatial object of class 'sf' including the x and y coordinates of cell centers, cell geometry (polygons) and cell id (gid).
The halfwidth cell value used to build the grid is computed as
\(h_w = \frac{\beta \sqrt{A/N}}{\sqrt{2.5980}}\),
where A is the study area (convex hull of sampling points) and N the number of samples.
Parameter beta allows to respect the Nyquist-Shannon sampling theorem depending on sampling regularity
(call to MAPI_EstimateHalfwidth
).
# NOT RUN {
data("samples")
grid <- MAPI_GridAuto(samples, crs=3857, beta=0.5)
# }
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