Felter i ODVLAYER

Feltnavn Obligatorisk Beskrivelse datatype længde præcision kodeliste
MODEL Internal Id (in GEUS' Gerda-database) of Model NUMBER 8 0
POSITION x 1D models (positions) numbered 1, 2, 3, ... in order recorded. NUMBER 8 0
LAYER x Layers numbered 1, 2, 3, ... from top to bottom of model NUMBER 4 0
RHO x Layer resistivity in Ohmm NUMBER 12 3
RHOSTDDEV Relative uncertainty (one standard deviation) on layer resistivity given as a factor. The absolute uncertainty (length of error bar) on the layer resistivity is found by multiplying and dividing the layer resistivity by the factor, respectively NUMBER 4 3
THICKNESS Layer thickness in metres. NUMBER 8 3
THKSTDDEV Relative uncertainty (one standard deviation) on layer thickness given as a factor. The absolute uncertainty (length of error bar) on the layer thickness is found by multiplying and dividing the layer thickness by the factor, respectively NUMBER 4 3
DEPBOTTOM Depth to the bottom of the layer (in metres.) NUMBER 8 3
DBOTSTDDEV Relative uncertainty (one standard deviation) on the depth to the bottom of the layer given as a factor. The absolute uncertainty (length of error bar) is found by multiplying and dividing the depth to the bottom of the layer by the factor, respectively NUMBER 4 3
RHOPRIVAL A priori layer resistivity in Ohmm. NUMBER 12 3
RHOPRISTDD Relative uncertainty (one standard deviation) on a priori layer resistivity given as a factor. The absolute uncertainty (length of error bar) on the a priori layer resistivity is found by multiplying and dividing the a priori layer resistivity by the factor, respectively NUMBER 4 3
THKPRIVAL A priori layer thickness in metres. NUMBER 8 3
THKPRISTDD Relative uncertainty (one standard deviation) on a priori layer thickness given as a factor. The absolute uncertainty (length of error bar) on the a priori layer thickness is found by multiplying and dividing the a priori layer thickness by the factor, respectively NUMBER 4 3
DBOPRIVAL A priori depth to the bottom of the layer (in metres). NUMBER 8 3
DBOPRISTDD Relative uncertainty (one standard deviation) on the a priori depth to the bottom of the layer given as a factor. The absolute uncertainty (length of error bar) is found by multiplying and dividing the a priori depth to the bottom of the layer by the factor, respectively NUMBER 4 3
THKMIN Minimum layer thickness given by the equivalence analysis. NUMBER 8 3
THKMAX Maximum layer thickness given by the equivalence analysis. NUMBER 8 3
DEPMIN Minimum depth to the bottom of the layer given by the equivalence analysis. NUMBER 8 3
DEPMAX Maximum depth to the bottom of the layer given by the equivalence analysis. NUMBER 8 3
RHOMIN Minimum layer resistivity given by the equivalence analysis. NUMBER 12 3
RHOMAX Maximum layer resistivity given by the equivalence analysis. NUMBER 12 3
DEPTOP Depth to the top of the layer (in metres.) NUMBER 8 3
DEPMIDP Depth to the midpoint of the layer (in metres). NUMBER 8 3
ELEVTOP Elevation of the top of the layer (in metres). NUMBER 8 3
ELEVMIDP Elevation of the midpoint of the layer (in metres). NUMBER 8 3
ELEVBOTTOM Elevation of the bottom of the layer (in metres). NUMBER 8 3