Program Name |
Function |
eimgd |
Calculate CFIM matrix and FSCL scaling coefficients to prepare for
3D Magnetization Imaging analysis considering depth scaling (with/without
thickness correction).
|
Parameters: |
log filename
input magnetic anomaly data filename
source surface alt. data filename
source location parameters (*1)
truncation of source effect (km)
ambient field direction
magnetization direction
spec. of layer pattern and number of layers
thickness/depth of each layer (m)
initial value of source magnetiz. (A/m)
CFIM matrix output filename
AIMG initial model output filename
FSCL scaling coef. data output filename |
|
eimga |
Calculate CFIM matrix and FSCL scaling coefficients to prepare for
3D Magnetization Imaging analysis considering automatic parameter scaling
(with/without thickness correction).
|
Parameters: |
log filename
input magnetic anomaly data filename
source surface alt. data filename
source location parameters (*1)
truncation of source effect (km)
ambient field direction
magnetization direction
spec. of layer pattern and number of layers
thickness/depth of each layer (m)
initial value of source magnetiz. (A/m)
CFIM matrix output filename
AIMG initial model output filename
FSCL scaling coef. data output filename |
|
aimgn aimgnc |
Execute a simple 3D Magnetization Imaging analysis without
thickness correction, making use of CFIM matrix and FSCL scaling coef.
from eimgd/eimga process as far as specified loop count or until
converge.
|
Parameters: |
log filename
input magnetic anomaly data filename
whether removing linear trend or not
CFIM matrix input filename
AIMG model input filename
AIMG model output filename or 'U' to update infile
FSCL scaling coef. input filename
weight power of parameter scaling
auxiliary output filename
[aimgn] number of loops (*2)
or [aimgnc] convergency torelance (*3)
[aimgn,(*2)]
initial value of source magnetiz. (A/m) [if restart]
or [aimgnc]
maximum loop count |
|
aimgs aimgsc |
Execute a simple 3D Magnetization Imaging analysis with
thickness correction, making use of CFIM matrix and FSCL scaling coef.
from eimgd/eimga process as far as specified loop count or until
converge.
|
Parameters: |
log filename
input magnetic anomaly data filename
whether removing linear trend or not
CFIM matrix input filename
AIMG model input filename
AIMG model output filename or 'U' to update infile
FSCL scaling coef. input filename
weight power of parameter scaling
auxiliary output filename
[aimgs] number of loops (*2)
or [aimgsc] convergency torelance (*3)
[aimgs,(*2)]
initial value of source magnetiz. (A/m) [if restart]
or [aimgsc]
maximum loop count |
|
nimgn nimgnc |
Execute a 3D Magnetization Imaging analysis of Norm-minimum
regularization without thickness correction, making use of CFIM
matrix and FSCL scaling coef. from eimgd/eimga process as far as
specified loop count or until converge.
|
Parameters: |
log filename
input magnetic anomaly data filename
whether removing linear trend or not
CFIM matrix input filename
AIMG model input filename
AIMG model output filename or 'U' to update infile
FSCL scaling coef. input filename
weight power of parameter scaling
initial weighting ratio of (SourceNorm / Residual) terms
auxiliary output filename
[nimgn] number of loops (*2)
or [nimgnc] convergency torelance (*3)
[nimgn,(*2)]
initial value of source magnetiz. (A/m) [if restart]
or [nimgnc]
maximum loop count |
|
nimgs nimgsc |
Execute a 3D Magnetization Imaging analysis of Norm-minimum
regularization with thickness correction, making use of CFIM
matrix and FSCL scaling coef. from eimgd/eimga process as far as
specified loop count or until converge.
|
Parameters: |
log filename
input magnetic anomaly data filename
whether removing linear trend or not
CFIM matrix input filename
AIMG model input filename
AIMG model output filename or 'U' to update infile
FSCL scaling coef. input filename
weight power of parameter scaling
initial weighting ratio of (SourceNorm / Residual) terms
auxiliary output filename
[nimgs] number of loops (*2)
or [nimgsc] convergency torelance (*3)
[nimgs,(*2)]
initial value of source magnetiz. (A/m) [if restart]
or [nimgsc]
maximum loop count |
|
cimgn cimgnc |
Execute a 3D Magnetization Imaging analysis of Compactness
regularization without thickness correction (minimizing number of
source elements), making use of CFIM matrix and FSCL scaling coef. from
eimgd/eimga process as far as specified loop count or until
converge.
|
Parameters: |
log filename
input magnetic anomaly data filename
whether removing linear trend or not
CFIM matrix input filename
AIMG model input filename
AIMG model output filename or 'U' to update infile
FSCL scaling coef. input filename
weight power of parameter scaling
source support (magnetization) threshold
initial weighting ratio of (SourceSize / Residual) terms
auxiliary output filename
[cimgn] number of loops (*2)
or [cimgnc] convergency torelance (*3)
[cimgn,(*2)]
initial value of source magnetiz. (A/m) [if restart]
or [cimgnc]
maximum loop count |
|
cimgs cimgsc |
Execute a 3D Magnetization Imaging analysis of Compactness
regularization with thickness correction (minimizing total source
volume), making use of CFIM matrix and FSCL scaling coef. from
eimgd/eimga process as far as specified loop count or until
converge.
|
Parameters: |
log filename
input magnetic anomaly data filename
whether removing linear trend or not
CFIM matrix input filename
AIMG model input filename
AIMG model output filename or 'U' to update infile
FSCL scaling coef. input filename
weight power of parameter scaling
source support (magnetization) threshold
initial weighting ratio of (SourceSize / Residual) terms
auxiliary output filename
[cimgs] number of loops (*2)
or [cimgsc] convergency torelance (*3)
[cimgs,(*2)]
initial value of source magnetiz. (A/m) [if restart]
or [cimgsc]
maximum loop count |
|
fimgs fimgsc |
Execute a 3D Magnetization Imaging analysis of Compactness
regularization with thickness correction (minimizing total source
volume) and magnetiz. clipping, making use of CFIM matrix and FSCL scaling
coef. from eimgd/eimga process as far as specified loop count or
until converge.
|
Parameters: |
log filename
input magnetic anomaly data filename
whether removing linear trend or not
CFIM matrix input filename
AIMG model input filename
AIMG model output filename or 'U' to update infile
FSCL scaling coef. input filename
weight power of parameter scaling
source support (magnetization) threshold
source magnetization clipping
initial weighting ratio of (SourceSize / Residual) terms
auxiliary output filename
[fimgs] number of loops (*2)
or [fimgsc] convergency torelance (*3)
[fimgs,(*2)]
initial value of source magnetiz. (A/m) [if restart]
or [fimgsc]
maximum loop count |
|
plimv |
Draw perspective view contour map for each layer result of 3D
Magnetization Imaging analysis on an A4 sheet. Surrounding source zone
is masked, and the range of drawing can be limited.
|
Parameters: |
log filename
input AIMG model filename
ref. obs.anomaly data filename
ref. CFIM matrix filename
no. of grids [S,N] to limit drawing range
no. of grids [W,E] to limit drawing range
topmost layer no. to draw
bottommost layer no. to draw
output PS filename
contour interval (A/m) |
|
plimvc |
Draw perspective view color-grading map with/without contours for each
layer result of 3D Magnetization Imaging analysis on an A4 sheet.
Surrounding source zone is masked, and the range of drawing can be limited.
|
Parameters: |
log filename
input AIMG model filename
ref. obs.anomaly data filename
ref. CFIM matrix filename
no. of grids [S,N] to limit drawing range
no. of grids [W,E] to limit drawing range
topmost layer no. to draw
bottommost layer no. to draw
output PS filename
color-grading interval (A/m)
median value of grading (A/m)
contour-line interval (A/m) (if 0., no contour lines) |
|
plsim |
Draw section view contour map for E-W or N-S cross-section result of
3D Magnetization Imaging analysis on an A4 sheet.
The range of drawing can be limited.
|
Parameters: |
log filename
input AIMG model filename
ref. CFIM matrix filename
N-S section (0) or E-W section (1)
section seq. no. from W or S
no. of grids [S,N] or [W,E] to limit drawing range
output PS filename
paper orientation
contour interval (A/m)
width of drawing (cm)
height of drawing (cm)
char.size of contour values |
|
plsimc |
Draw section view color-grading map with/without contours for E-W or
N-S cross-section result of 3D Magnetization Imaging analysis on an A4
sheet. The range of drawing can be limited.
|
Parameters: |
log filename
input AIMG model filename
ref. CFIM matrix filename
N-S section (0) or E-W section (1)
section seq. no. from W or S
no. of grids [S,N] or [W,E] to limit drawing range
output PS filename
paper orientation
color-grading interval (A/m)
median value of grading (A/m)
contour-line interval (A/m) (if 0., no line contours)
width of drawing (cm)
height of drawing (cm)
[if plot contours]
char.size of contour values |
|
plxim |
Draw section view contour map for arbitrary cross-section result of
3D Magnetization Imaging analysis on an A4 sheet.
The range of drawing can be limited.
|
Parameters: |
log filename
input AIMG model filename
ref. CFIM matrix filename
Northing and Easting (km) of section start position
Northing and Easting (km) of section end position
no. of points to conform the section
output PS filename
paper orientation
contour interval (A/m)
width of drawing (cm)
height of drawing (cm)
char.size of contour values |
|
plximc |
Draw section view color-grading map with/without contours for arbitrary
cross-section result of 3D Magnetization Imaging analysis on an A4 sheet.
The range of drawing can be limited.
|
Parameters: |
log filename
input AIMG model filename
ref. CFIM matrix filename
Northing and Easting (km) of section start position
Northing and Easting (km) of section end position
no. of points to conform the section
output PS filename
paper orientation
color-grading interval (A/m)
median value of grading (A/m)
contour-line interval (A/m) (if 0., no line contours)
width of drawing (cm)
height of drawing (cm)
[if plot contours]
char.size of contour values |
|
exdeq1 exdeq2 exdeq3 |
Calculate CXFUP matrix to prepare for Generalized Mis-tie Adjustment
(combined with Altitude Reduction from StdLIN line data by Equivalent
Anomaly method). The freedom of mis-tie adjustment is constrained to be
constant level for each line (exdeq1), linear variation for each
line (exdeq2), or arbitrary variation for each crossover point
(exdeq3). [In the process of exdeq3,
crossover points are searched for only between two line groups, traverse
and tie lines, where the line names starting with B,b,C,c,X,x are assumed
to be tie lines, and others traverses. The linear mis-tie variation
between adjacent crossover points is assumed.].
|
Parameters: |
log filename
StdLIN line data filename
reduction-to altitude data filename
distance of source surface below the reduction-to surface (m)
truncation of source effect (km)
CXFUP matrix output filename
AXDEQ source model initializing output filename
AXOFF offset model initializing output filename |
|
exdeq4 |
For the purpose of extracting magnetic anomaly change between repeated
aeromagnetic surveys different in time epochs, apply a mis-tie adjustment
method similar to exdeq3. [The freedom of
arbitrary adjustment is given to the crossover points but only for the
(one epoch) survey lines distinguished by the line names starting with
B,b,C,c,X,x. The linear mis-tie variation between adjacent crossover
points is assumed.]
|
Parameters: |
log filename
StdLIN line data filename
0 [auto search crossovers], otherwise Spacing (m) to pick ControlPoints
[in Asama style]
reduction-to altitude data filename
distance of source surface below the reduction-to surface (m)
truncation of source effect (km)
CXFUP matrix output filename
AXDEQ source model initializing output filename
AXOFF offset model initializing output filename |
|
axdeq axdeqc |
Execute Generalized Mis-tie Adjustment (combined with Altitude Reduction
from StdLIN line data by Equivalent Anomaly method), making use of CXFUP
matrix from exdeq1/exdeq2/exdeq3/exdeq4 process as far as
specified loop count or until converge.
|
Parameters: |
log filename
StdLIN line data filename
CXFUP matrix input filename
AXDEQ source model in/out filename
AXOFF offset model in/out filename
[axdeq] number of loops (*2)
or [axdeqc] convergency tolerance (*3)
[in case of axdeqc] maximum loop
count |
|
cxdeq |
Calculate magnetic anomaly distribution on the specified reduction-to
surface, from the Equivalent Anomaly distribution AXDEQ derived by
axdeq/axdeqc process.
|
Parameters: |
log filename
reduction-to altitude data filename
CXFUP matrix input filename
AXDEQ source model input filename
truncation of source effect (km)
reduction result data output filename |
|
genroff |
The offset model AXOFF given from axdeq/axdeqc process is
regarded as a temporal magnetic anomaly change, and is converted into
a random-point (StdLIN) data of the distribution.
|
Parameters: |
log filename
original survey line StdLIN data filename
AXOFF offset model filename
output filename of random-point (StdLIN) data of magnetic variation
trend removal (0: only DC, 1: Linear, or 2: none) |
|
plmvarc |
Draw color-graded contour map of magnetic variation GRID data with
Trackline paths and Control points on an A4 sheet. The zones near median
are painted in white, and the clolor-grading legend can be added.
(The color-grading interval is set to same as the contour interval.)
|
Parameters: |
log filename
input mag. variation GRID data filename
survey line data StdLIN filename
control-points data StdLIN filename
output PS filename
paper orientation
pen-number to draw trackline paths
contour interval (= color-grading interval)
median value of color-grading
white zone half width [multiplier to the contour interval]
size of drawing supplementary items (*4) |
|