[SOLVED]use of bounds in anamorphosis
Posted: Tue Aug 20, 2013 7:37 am
Hi Didier / Fabian et al.,
I seem to be firing out a lot of questions lately - so thankyou for your help!
My next query relates to use of bounds in anamorphosis. By setting flag.bound=TRUE, does this coerce / force z2y and y2z to yield transformation values within defined azmax/azmin and aymax/aymin?
The issue I am running up against is that the back transformed values from a series of gaussian simulations are yielding significant percentages of z values that are well outside the realms of reality.
I have been trying to constrain the simnulation results to realistic values by constraining both azmax/min and pzmax/min to the respective max and min of the input raw data during the original z2y transform, however it appears that the resulting point anamorphosis model does not adhere to the limits I have specified.
Have I either misinterpretetd what flag.bound does, or am I not specifying the limits to adhere to during transformation correctly?
As always, help is much appreciated.
Thanks,
Matt.
I seem to be firing out a lot of questions lately - so thankyou for your help!
My next query relates to use of bounds in anamorphosis. By setting flag.bound=TRUE, does this coerce / force z2y and y2z to yield transformation values within defined azmax/azmin and aymax/aymin?
The issue I am running up against is that the back transformed values from a series of gaussian simulations are yielding significant percentages of z values that are well outside the realms of reality.
I have been trying to constrain the simnulation results to realistic values by constraining both azmax/min and pzmax/min to the respective max and min of the input raw data during the original z2y transform, however it appears that the resulting point anamorphosis model does not adhere to the limits I have specified.
Have I either misinterpretetd what flag.bound does, or am I not specifying the limits to adhere to during transformation correctly?
As always, help is much appreciated.
Thanks,
Matt.