Note: This document is for an older version of GRASS GIS that is outdated. You should upgrade, and read the current manual page.
The extent of all resulting raster maps is taken from the settings of the actual computational region (which may differ from the extent of the input raster map). The resolution of the computational region however has to be aligned to the resolution of the input map to avoid artefacts.
Reinterpolation (resampling) is done to higher, same or lower resolution specified by the ew_res and ns_res parameters.
All resulting raster maps are created using the settings of the current region (which may be different from that of the input raster map).
Optionally, and simultaneously with interpolation, topographic parameters are computed from an input raster map containing z-values of elevation/depth: slope, aspect, profile curvature (measured in the direction of steepest slope), tangential curvature (measured in the direction of a tangent to contour line) and/or mean curvature are computed from and saved as raster maps as specified by the options slope, aspect, pcurv, tcurv, mcurv respectively.
If the -d flag is set the program outputs partial derivatives fx, fy, fxx, fxy, and fyy instead of slope, aspect and curvatures.
For noisy data it is possible to define spatially variable smoothing by providing a raster map named by the smooth option containing smoothing parameters. With the smoothing parameter set to zero (smooth is not given or contains zero data), the resulting surface passes exactly through the data points.
The user can also define a raster map (named with maskmap) which will be used as a mask. The interpolation is skipped for cells which have zero or NULL value in the mask.
Zero values will be assigned to these cells in all output raster maps.
The zmult parameter allows the user to rescale the z-values which may be useful, e.g., for transformation of elevations given in feet to meters, so that the proper values of slopes and curvatures can be computed. The default value is 1.
A regularized spline with tension method is used for the interpolation. The tension parameter tunes the character of the resulting surface from thin plate to membrane. Higher values of tension parameter reduce the overshoots that can appear in surfaces with rapid change of gradient.
The -t flag can be set to use "dnorm independent tension".
The interpolation is performed for overlapping rectangular segments.
The user can define the width of overlap (in number of cells) with
the overlap option. The default value is 3.
The region is temporarily changed while writing output files with desired resolution. Topographic parameters are computed in the same way as in the v.surf.rst module. (See also Mitasova and Hofierka, 1993)
The raster map used with the smooth option should contain variable smoothing parameters. These can be derived from errors, slope, etc. using the r.mapcalc module.
The program gives warning when significant overshoots appear and higher tension should be used. However, with tension set too high the resulting surface changes its behavior to a membrane (rubber sheet stretched over the data points resulting in a peak or pit in each given point and everywhere else the surface goes rapidly to trend). Smoothing can be used to reduce the overshoots. When overshoots occur the resulting elev file will have white color in the locations of overshoots since the color table for the output file is the same as colortable for raster input file.
The program checks the numerical stability of the algorithm by computation of values at given points, and prints the maximum difference found into the history file of raster map elev (view with r.info). An increase in tension is suggested if the difference is unacceptable. For computations with smoothing set to 0 this difference should be 0. With a smoothing parameter greater than zero the surface will not pass through the data points exactly, and the higher the parameter the closer the surface will be to the trend.
The program writes the values of parameters used in computation into the comment part of the elev map history file. Additionally the following values are also written to assist in the evaluation of results and choosing of suitable parameters:
The program gives a warning when the user wants to interpolate outside the region given by the input raster map's header data. Zooming into the area where the points are is suggested in this case.
When a mask is used, the program uses all points in the given region for interpolation, including those in the area which is masked out, to ensure proper interpolation along the border of the mask. It therefore does not mask out the data points; if this is desirable, it must be done outside r.resamp.rst before processing.
# set computation region to original map (30m) g.region raster=elevation.dem -p # resample to 15m r.resamp.rst input=elevation.dem ew_res=15 ns_res=15 elevation=elev15 # set computation region to resulting map g.region raster=elev15 -p # verify r.univar elev15 -g
Mitasova, H. and Mitas, L., 1993. Interpolation by regularized spline with tension: I. Theory and implementation, Mathematical Geology No.25 p.641-656.
Mitasova, H. and Hofierka, L., 1993. Interpolation by regularized spline with tension: II. Application to terrain modeling and surface geometry analysis, Mathematical Geology No.25 p.657-667.
Talmi, A. and Gilat, G., 1977. Method for smooth approximation of data, Journal of Computational Physics , 23, pp 93-123.
Wahba, G., 1990. Spline models for observational data, CNMS-NSF Regional Conference series in applied mathematics, 59, SIAM, Philadelphia, Pennsylvania.
Overview: Interpolation and Resampling in GRASS GIS
Modified program (translated to C, adapted for GRASS , segmentation
procedure):
Irina Kosinovsky, US Army CERL.
Dave Gerdes, US Army CERL.
Available at: r.resamp.rst source code (history)
Latest change: Thu Feb 3 11:10:06 2022 in commit: 73413160a81ed43e7a5ca0dc16f0b56e450e9fef
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