superimposed_shmax: SHmax direction resulting from multiple plate boundaries
Description
Calculates a \(\sigma_{Hmax}\) direction at given coordinates,
sourced by multiple plate boundaries. This first-order approximation is the
circular mean of the superimposed theoretical directions, weighted by the
rotation rates of the underlying PoRs.
two column vector. azi is the resultant azimuth in degrees /
geographical CRS), R is the resultant length.
Arguments
df
data.frame containing the coordinates of the point(s)
(lat, lon), and the direction of
\(\sigma_{Hmax}\) azi (in degrees)
PoRs
multirow data.frame or "euler.pole" object that must contain lat,
lon and angle
types
character vector with length equal to number of rows in PoRs.
Type of plate boundary. Must be "out", "in", "right", or
"left" for outward, inward, right-lateral, or left-lateral
moving plate boundaries, respectively.
absolute
logical. Whether the resultant azimuth should be weighted
using the absolute rotation at the points or the angular rotation of the PoRs.
PoR_weighting
(optional) numeric vector with length equal to number of rows in
PoRs. Extra weightings for the used PoRs.
See Also
model_shmax()
superimposed_shmax_PB() for considering distances to plate boundaries