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h2. Name *agr* — Adjust grid to points and well data h2. Syntax {panel:|borderStyle=solid|borderWidth=1|bgColor=#FFFFAA} *agr* _hiname_ \[*dis* _fixed_radius_] \[*rad* _radius_factor_] \*max* _max_radius_ \[*sav*] \[*conic*] \[*tensor* \[*fac* _influencefactor_]] {panel} h2. Description The *agr* command is used for adjusting a grid to the z-values of a point-dataset in workspace. A common *agr* operation is to adjust a map to the values found in a well. The grid must be the active dataset. h2. Arguments _hiname_ {indent} Ajust the grid to points in workspace _hiname_. {indent} *dis* _fixed_radius_ {indent} Use a fixed radius _fixed_radius_ distance around each point. {indent} *rad* _radius_factor_ {indent} Use an influence radius around each point that is: _radius_factor_ * vertical_distance_from_surface_to_point . Default _radius_factor_ is 5. The default is used if this argument is left out. {indent} *max* _max_radius_ {indent} Use a maximum influence distance of _max_radius_ around each point. {indent} *sav* {indent} Save the correction grid into workspace ^savagr. This grid can be used for inspection and documentation of the corrections. {indent} *tensor* {indent} Use b-spline tensor modeling (bell shaped) to model the differences. {indent} *fac* _influencefactor_ {indent} Apply an influence factor in tensor modeling. {indent} h2. Examples h3. Ex.1: Generate grid and cube {noformat:|borderWidth=1|bgColor=#eeeeee} set i 0 ; # initialize i # adjust grid 5 times while {$i lt 5} { agr ggg dis 5000 ; # adjust grid in workspace to points in workspace ggg using a fixed radius of 5000. incr i ; # add one to i } {noformat} To achieve good results with the agr command one should repeat the operations a few times to secure that the updating towards the different points stabilizes in such a way that an updating in one point do not harm the adjacent points. h3. Ex.2: Update grid to well data Adjusting grids is handled in the command object found by _grid_ > Grid Operations > Update grid to well data*. The example below is an excerpt from that code. {noformat:|borderWidth=1|bgColor=#eeeeee} # example of using agr to update a grid # well data is located in workspace welldata # the grid to be updated is in active mhi updatedgrid ; # the grid is saved in updated grid set radius 5000 ; # radius of updating set iterations 10 ; # max iterations set iter 1 ; # initiate a loop variable set tell 0 ; # initiate a counter variable while {$iter == 1} { mlo updatedgrid ; # move low updatedgrid set rad [expr $radius * (1 - 0.06 * $tell)] agr welldata rad $rad ; # adjust grid using an influence radius mhi updatedgrid ; # move high updated grid mlo welldata ; # move down welldata zap dif updatedgrid ; # zap and get difference to grid # well data differences to the grid is in the scalar part set zmi [gvar zsmin] ; # get scalar zmin set zma [gvar zsmax] ; # get scalar zmax set val [expr $zmi + $zma] ; # add min and max if {$val lt 1 amp $val > -1} {set iter 0} ; # check difference and stop if OK mlo updatedgrid ; # move low updatedgrid incr tell ; # increment the tell variable if {$tell >= $iterations} { ; # test if counter is greater than max iterations break ; # break the loop } } # the result is now in updatedgrid {noformat} !att:_img_ref^cmd_agr_viewports.png|border=1,width=500! _The grid in the example above is displayed in a viewport presentation before and after updating with *agr*_ h2. See also [grp], [zap] |
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