A B C D E F G H I K L M N P Q R S T U V W X Z misc
acknowledge | Prompts the version of the library used in the current package |
anakexp | Analyse Krigeante a covariance discretisee |
anakexp3D | Analyse Krigeante a covariance discretisee |
anam-class | Class "anam" Gaussian Anamorphosis |
anam.eval | Gaussian to Raw or vice-versa transform |
anam.f2coef | Calculate the coefficients for a discrete function |
anam.factor2qt | Calculate Recovery Functions from Estimated Factors |
anam.fit | Fit the Anamorphosis parameters |
anam.get.r | Calculate the change of support coefficient |
anam.plot | Plot Anamorphosis Model |
anam.point2block | Translate the Point into Block Anamorphosis |
anam.print | Print the Anamorphosis |
anam.read | Read an Anamorphosis from an ASCII file (RGeostats format) |
anam.vario.z2y | Transform an Experimental variogram from Raw to Gaussian |
anam.write | Dump an Anamorphosis in an ASCII file (RGeostats format) |
anam.y2z | Gaussian to Raw |
anam.z2factor | Calculate the discrete factors |
anam.z2y | Raw to Gaussian |
argin | Translate arguments from R to C |
argout | Translate arguments from C to R |
ascii.read | Read an Object from an ASCII file |
ascii.read-methods | Method for reading an object from an ASCII file |
ascii.write | Print an Object into an ASCII file |
ascii.write-method | Method for dumping an object into an ASCII file |
ascii.write-methods | Method for dumping an object into an ASCII file |
blockstat | Statistics in block cells |
cdf.plot | Plot Experimental Anamorphosis |
ce | Conditional Expectation under Gaussian Model |
check.class | Check a file name against a file type |
check.colcok | Check if a Valid Colocated Option has been required |
check.model | Checking that the Model is valid |
clean.window | Erase the contents of a Graphic Screen |
cloud.calc | Calculate the Variogram Cloud |
constant.define | Define the constants for this package |
constant.query | Ask for the constant values |
constant.reset | Reset the defaulted environment values |
coor2deg | Convert from cartesian coordinates to longitude-latitude |
correlation | Plot the [shifted] correlation |
cosd | Compute the cosine of an angle entered in degrees |
db-class | Class "db" The RGeostats Data Base |
db.add | Add vectors to a Data Base |
db.add.CL | Add some linear combinations of existing variables in a Db |
db.append | Append new samples to a Db |
db.bounds | Generates the bounds from a categorical variable through Rule |
db.cluster | Calculate the Clustering |
db.compare | Pointwise statistics |
db.create | Create a standard Data Base |
db.delete | Deletes a vector in a Data Base |
db.diffusion | Calculate the diffusion coefficient over coarse cells |
db.digit | Get the Point |
db.distance | Calculate distances within Db(s) |
db.distance.polygon | Calculate the distance from Db to Polygon |
db.edit | Db Editor |
db.extract | Extracts a vector from the Data Base |
db.fold.polyline | Copy variables from an Input to an Output folded Db |
db.getcols | Returns the ranks of the columns corresponding to a given locator and a given rank (optional) |
db.getname | Identify a variable Name |
db.getsample | Rank(s) of closest sample(s) |
db.grid.copy | Copy variables from the Grid Dbin into the Grid Dbout |
db.grid.fill | Fill the empty cells of a Grid |
db.grid.init | Initialize a Grid Db |
db.grid.locate | Identify the absolute grid node |
db.grid.plot | Represent an irregular grid |
db.grid.refine | Duplicate a Grid Db, refining or dividing the number of meshes |
db.grid.sampling | Sampling a Grid along a segment |
db.grid2point.sampling | Extract samples from a regular grid |
db.grid2raster | Printing the contents of a grid Db into a Raster File |
db.ident | Search for a list of variables in a Db |
db.indicator | Convert from continuous to several indicator variables |
db.info | Gives information on the contents of a DB |
db.ir | Convert from continuous to several indicator residuals |
db.limits | Convert from continuous to categorical through Limits |
db.locate | Define multiple locators |
db.locate.correct | Correct the vector of locator names |
db.locerase | Undefine a locator type |
db.locmod | Define if the newly created variable must be locatorized or not |
db.merge | Merge several variables into a new one |
db.mesh | Create the Data Base of the Mesh Centers |
db.model.nostat | Add the Non-stationary Model components to the Db |
db.multi.stat | Calculate general statistics on several variables of a Db |
db.normalize | Normalize a set of variables |
db.plot | Display the contents of a Data Base |
db.plot.model | Graphically represent the non-stationary components of a Model |
db.point.init | Create a Point Db |
db.point2cell | Calculate Surface and Volume of the Voronoi of a set of isolated points |
db.polygon | Polygonal Data Base selection |
db.print | Print a Data Base summary |
db.projec | Perform projection for a DB |
db.prop.thresh | Generates the thresholds through Rule |
db.proportion | Compute proportions of a variable of a Db into a Grid Db |
db.raster2grid | Read the contents of a Raster File and create into a new Db file |
db.read | Read a Db from an ASCII file (RGeostats format) |
db.read.format | Load a Grid from a specific file into a Db |
db.reduce | Extract a sub-part of a Db |
db.regularize | Bench regularization of vertical wells |
db.rename | Modify the name of a vector in the Data Base |
db.replace | Replace the contents of a variable of a Db |
db.round.coor | Modify coordinates of input Db as migrated to output Db |
db.rule | Convert Gaussian variable(s) into Facies through Rule |
db.section.plot | Display 2-D surfaces along traces |
db.sel | Define a selection |
db.selcombine | Combine selections |
db.selgrid | Select data in a Db according to another Grid Db |
db.selhull | Establish the selection of Dbout as the convex hull of the active data contained in Dbin |
db.stat | Statistics on a set of variables |
db.stat.grid | Statistics for a set of variables on a grid |
db.stat.multi | Calculate general statistics on several variables of a Db |
db.stat.print | Print statistics on a set of variables |
db.stat.simu | Pointwise statistics |
db.topcut | Convert from continuous to useful variables for TopCut Model |
db.trisurf | Calculate and represent triangulate 2-D surfaces in 3-D space |
db.unfold.polyline | Fold a Db with respect to a Polyline |
db.upscale | Upscale a variable from a Grid Db into another Grid Db |
db.varlist | Returns the list of locators and their multiplicity |
db.write | Write a Db into an ASCII file (RGeostats format) |
db.write.format | Dump the contents of a Db into a specific file |
debug.define | Define the DEBUG status |
debug.query | Ask for the DEBUG status |
debug.reference | Define the Reference Target for DEBUG |
declustering | Declustering |
define.scenes | Define the scene characteristics |
deg2coor | Convert from long-lat to cartesian coordinates |
del.keypair | Delete an already existing key-pair binding |
Demo.acoustic.maur.db.data | Acoustic data |
Demo.acoustic.maur.poly.data | Acoustic data |
Demo.anchovy.bob.1d.db.data | Datasets used for Global estimation in 1-D |
Demo.anchovy.bob.1d.model.vario | Datasets used for Global estimation in 1-D |
Demo.anchovy.bob.1d.vario.data | Datasets used for Global estimation in 1-D |
Demo.anchovy.bob.2d.db.data | Datasets used for Global estimation in 2-D |
Demo.anchovy.bob.2d.poly.data | Datasets used for Global estimation in 2-D |
demo.clean | Clean the files created by a Demonstration script |
Demo.CRR.data.frame | Datasets used for demonstration of RGeostats usage |
Demo.CRR.poly.data | Datasets used for demonstration of RGeostats usage |
Demo.double.hex.db | Dataset used to demonstrate the Triangulation |
Demo.double.hex.seg | Dataset used to demonstrate the Triangulation |
demo.get.environ | Get the Environment for the Demo Session |
Demo.hake.bob.db.data | Datasets used for Examples in Spatial Indices |
Demo.hake.bob.poly.data | Datasets used for Examples in Spatial Indices |
Demo.hake.med.db.data | Datasets used for Examples in Geostatistics for Fisheries |
Demo.herreggs.scot.db.data | Datasets used for Examples |
Demo.herreggs.scot.db.nwdata | Datasets used for Examples |
Demo.herreggs.scot.grid.disc | Datasets used for Examples |
Demo.herreggs.scot.grid.krig | Datasets used for Examples |
Demo.herreggs.scot.model.vario | Datasets used for Examples |
Demo.herreggs.scot.neigh.krig | Datasets used for Examples |
Demo.herreggs.scot.poly.data | Datasets used for Examples |
Demo.herreggs.scot.vario.data | Datasets used for Examples |
Demo.herring.len.scot.db.data | Herring data for Multivariate Estimation and Simulations |
Demo.herring.len.scot.grid.kriging | Herring data for Multivariate Estimation and Simulations |
Demo.herring.len.scot.grid.simu | Herring data for Multivariate Estimation and Simulations |
Demo.herring.len.scot.model.vario | Herring data for Multivariate Estimation and Simulations |
Demo.herring.len.scot.neigh.krig | Herring data for Multivariate Estimation and Simulations |
Demo.herring.len.scot.poly.data | Herring data for Multivariate Estimation and Simulations |
Demo.herring.sa.scot.db.data | Herring acoustic backscatter from acoustic surveys |
Demo.herring.sa.scot.grid.simu | Herring acoustic backscatter from acoustic surveys |
Demo.herring.sa.scot.poly.data | Herring acoustic backscatter from acoustic surveys |
Demo.Hotspot.df | Data Set for Multivariate Spatio-temporal |
Demo.Hotspot.polyline | Data Set for Multivariate Spatio-temporal |
Demo.Nansen.db.data | Datasets used for Examples in Geostatistics for Fisheries |
Demo.Nansen.polyline | Datasets used for Examples in Geostatistics for Fisheries |
Demo.octopus.morocco.db.data | Octopus data set |
Demo.octopus.morocco.poly.data | Octopus data set |
demo.pause | Provoke a pause when running a Demonstration script |
demo.show | Plot the contents of the slide |
demo.slide | Add lines to the current slide |
demo.start | Define the environment for the Demo Session |
digitize | Digitize an Object from a plot |
digitize-methods | Method for digitizing an object from a grpahic plot |
dir.digit | Get Angle |
display.fault | Represent a network of faults |
dist.digit | Calculate distance |
dk | Performs Disjunctive Kriging |
domain.set | Define the Reference Domain |
draw.cell | Draw the edge of a cell in a 2-D grid |
draw.coast | Represent the coast line |
draw.color | Color representation |
draw.contour | Isoline representation for a Grid |
draw.dip | Represent the Dip |
draw.fracsimu | Elementary function for representing the simulated fractures |
draw.gradient | Represent the gradients |
draw.grid | Grid representation |
draw.image | Raster representation for a Grid |
draw.line | Line representation |
draw.literal | Literal representation |
draw.mima | Bounds Representation |
draw.model | Elementary function for representing the model |
draw.neigh | Graphic representation of the 2-D Moving Neighborhood |
draw.persp | Perspective representation for a Grid |
draw.point | Point representation |
draw.post | Posting representation |
draw.proportion | Proportional representation |
draw.sphdecor | Add Decoration for Sphere representation |
draw.vario | Elementary function for representing the variogram |
draw.xvalid | Graphic representation of Cross-Validation results |
duplicate | Look for duplicates |
edge.effect | Calculate and Visualize the Edge Effect |
eikonal | Perform the wave propagation within a Grid |
environ.load | Read the environment |
environ.print | Print the current values for the constants |
environ.save | Save the environment |
Exdemo_1D_well.model | Model for RGeostats1D demo |
Exdemo_1D_well.neigh | Neighborhood for RGeostats1D demo |
Exdemo_1D_well.table | Data Set for RGeostats1D demo |
Exdemo_2D_moving.neigh | Moving Neighborhood for RGeostats2D demo |
Exdemo_2D_pollution.table | Data Set for RGeostats2D demo |
Exdemo_2D_unique.neigh | Unique Neighborhood for RGeostats2D demo |
Exdemo_3D_wells | 3D data sets (19 wells) |
Exdemo_autofit1.model | Model used for the RgeoS.autofit demonstration script |
Exdemo_autofit2.model | Model used for the RGeostats.autofit demonstration script |
Exdemo_autofit3.vario | Experimental Variogram used for the RGeostats.autofit demonstration script |
Exdemo_autofit4.vario | Experimental Variogram used for the RGeostats.autofit demonstration script |
Exdemo_autofit5.vario | Experimental Variogram used for the RGeostats.autofit demonstration script |
Exdemo_autofit6.vario | Experimental Variogram used for the RGeostats.autofit demonstration script |
Exdemo_autofit7.model | Model used for the RGeostats.autofit demonstration script |
Exdemo_bathymetry_1D | Simulated Bathymetry |
Exdemo_bathymetry_1D_full | Simulated Bathymetry |
Exdemo_ext.data | Data Set Definition |
Exdemo_ext.grid | Data Set Definition |
Exdemo_ext.model | Model for ExtDrift Case Study |
Exdemo_ext.neigh | Neighborhood Definition |
Exdemo_Filter | Grid Data base used for Factorial Kriging Analysis |
Exdemo_FishData.table | Data file used for Tutorial in Fish Activity |
Exdemo_FishPoly.table | Polygon file used for Tutorial in Fish Activity |
Exdemo_Jura_Grid.table | Jura 2D Data Set - List of Grid Nodes |
Exdemo_Jura_Pred.table | Jura 2D Data Set - Initial Data |
Exdemo_Jura_Val_Loc.table | Jura 2D Data Set - Reduced Data Set |
Exdemo_PGS.db | Data Set Definition |
Exdemo_Scotland_Elevations | Topography of Scotland |
Exdemo_Scotland_Temperatures | Temperature of Scotland |
Exdemo_simpgs.db | Data Set Definition |
Exdemo_simpgs.model | Model Definition |
Exdemo_simpgs.neigh | Neighborhood Definition |
Exdemo_simpgs_mono3.rule | Standard Rule Definition |
Exdemo_simpgs_mono4.rule | Standard Rule Definition |
Exdemo_simpgs_shadow.rule | Shadow Rule Definition |
Exdemo_simpgs_shift.rule | Shift Rule Definition |
Exdemo_simpgs_std.rule | Standard Rule Definition |
Exdemo_Walker_Lake | Walker Lake sample and exhaustive data sets |
ffam-class | Class "ffam" Family definition (used in a 'fracture') |
ffault-class | Class "ffault" Fault definition (used in a 'fracture') |
fluid.extract | Extract the curve of Fluid Invaded Cells along Time |
fluid.propagation | Propagation of fluids within a 3-D Facies matrix |
foxleg | Optimize of a set of parameters |
fracsimu-class | Class "fracsimu" Set of Simulated Fractures |
fracsimu.extract | Extract a vector of attributes from the set of simulated fractures |
fracsimu.plot | Represent a set of fault and simulated fractures |
fracsimu.print | Print a set of simulated fractures |
fracsimu.to.block | Calculate the parameter induced by a set of simulated fractures |
fracsimu.to.well | Intersect a trajectory with the set of simulated fractures |
fracsimu.well.to.block | Plunge an enhanced trajectory in order to patch the block of permeabilities |
fracture-class | Class "fracture" Set of Fault and Fractures |
fracture.create | Create a Fracture (from arguments) |
fracture.print | Print a set of fractures |
fracture.read | Read a set of Fractures from an ASCII file (RGeostats format) |
fracture.simulate | Simulate a set of random fractures |
fracture.write | Write a Fracture in an ASCII file (RGeostats format) |
geometry.calc | Calculate the Geometry for Variogram calculation |
get.directions | Generate directions |
get.grid.sorting | Returns your grid indices in Geoslib order |
get.keypair | Get the value of a key-pair binding |
get.num | Ask for a number |
get.one | Get one element from an array |
get.sparse.keypair | Get the Sparse matrix for a key-pair binding |
get.yn | Get a logical answer |
gibbs | Perform simulations using the Gibbs Sampler |
global | Geostatistical estimation variance of the arithmetic/kriging mean |
grid.smoother | Image smoothing |
gridinter | Interpolate from a grid Db |
hermite.coeffs | Calculate the set of Hermite coefficients |
infl | Influence weight |
inh.kriging | Perform Inhomogeneous Kriging |
invdist | Inverse distance interpolation |
is.simu.workable | Check if a Model can cope with a Simulation method |
kribayes | Bayesian Estimation |
krigcell | Performs Kriging of Irregular Blocks |
krigdgm | Block Kriging using Dicrete Gaussian Model |
kriggam | Performs Kriging in the Gaussian Anamorphosed Model |
kriging | Performs Kriging |
krigprof | Performs Kriging on profiles |
krigsampling | Perform the Simple Kriging estimation using parcimonious neighborhood |
krigsum | Kriging under Constraints on the Sum |
krigtest | Operates the (co-)kriging of a single target |
krimage | Image filtering |
krineq | Conditional Expectation |
legend.image | Legend for image |
legend.locate | Legend Position |
legend.proportion | Legend for postplots |
legend.vario | Variogram Model Legend |
limits-class | Class "limits" characteristics |
limits.create | Create the limits from arguments |
limits.input | Define Limits interactively |
limits.print | Print the Limits |
line.digit | Digitalize a 2-D Line |
line.distance | Calculate the distance between two points through the projection on a broken line |
line.extract | Extract a line of information from a Db |
list.keypair | Print the set of key-pair bindings |
m2d.spde | Estimation or Simulation of Multilayer surfaces |
maf.calc | Calculate the MAF for a multivariate data set |
maf.indicator | Calculate the MAFs of indicators |
melem-class | Class "melem" Basic Structure |
melem.characteristics | Returns the characteristics of a basic structure |
melem.init | Initialize a Basic Structure |
melem.name | Returns the name of a covariance |
mesh-class | Class "mesh" definition |
mesh.barycenter | Calculate barycenter coordinates for samples of a Db |
mesh.plot | Represent a set of meshes |
mesh.print | Print a meshing |
meshing | Perform Meshing |
migrate | Migrate from a Db into another Db |
miss | Checks missing values |
ml.rf | Regression or Classification using Random Forest |
ml.svm | Regression using SVM methodology |
mlayer.get.prior | Multi-Layers estimation of drift coefficients |
mlayer.krig | Multi-Layers estimation |
mlayer.vario | Calculate the Variogram in the Multi-Layer framework |
model-class | Class "model" The Geostatistical Model |
model.auto | Automatic Model Fitting |
model.CL | Extract the model of a linear combination of variables |
model.covmat | Covariance matrix between two Dbs |
model.covmat.inchol | Establish the Incomplete Cholsky Decomposition of the covariance matrix |
model.cpp | Calculate the average covariance within a set of Polygons |
model.create | Create a model from arguments |
model.cvv | Average covariance within a 2-D Polygon or a generic Cell |
model.cxv | Average covariance between a Db and a Polygon or a Generice Cell |
model.cxx | Average covariance value of the model between two Dbs |
model.decode | Decode one or several Model items for Parametrization |
model.drfmat | Drift matrix for a Db |
model.eval | Evaluate a Model |
model.eval.nostat | Calculate the value of the non-stationary model for a set of distance increments |
model.extend | Convert a monovariate model into a multivariate one |
model.fit | Automatic Sill Fitting |
model.glue | Glue several monovariate Models together |
model.grid | Sample the model on a grid |
model.join | Combines two multivariate models into a single multivariate one |
model.maxdist | Returns the maximum distance in the model |
model.normalize | Normalize the sills of a model |
model.param.define | Specification of the Model Parameter |
model.pgs | Calculate the PGS model of indicators |
model.plot | Model graphic representation |
model.print | Print a Model |
model.properties | Apply a Transformation to the Model |
model.read | Read a Model from an ASCII file (RGeostats format) |
model.reduce | Extract a sub-model from an input model. |
model.regularize | Regularize a Model on a Mesh of a Db |
model.sample | Sample a Model in a Variogram |
model.window | Define the window containing a model |
model.write | Write a Model in an ASCII file (RGeostats format) |
monitoring.report | Reports the Memory Leak |
monitoring.set | Returns the status of the Memory Stack |
morpho | Morphological operations |
neigh-class | Class "neigh" Neighborhood characteristics |
neigh.calc | Returns the samples selected in the Neighborhood of the Target |
neigh.create | Initialize a Neighborhood Structure |
neigh.init | Initialize a Neighborhood Structure |
neigh.print | Print a Neighborhood |
neigh.read | Read a Neighborhood from an ASCII file (RGeostats format) |
neigh.test | Neighborhood Check |
neigh.write | Write a Neighborhood in an ASCII file (RGeostats format) |
pal.1 | Elegant Color Scale |
pal.2 | Elegant Color Scale |
pal.3 | Flumy Facies Color Scale |
pca-class | Class "pca" Factorization Linear Transformation |
pca.calc | Calculate the PCA for a multivariate data set |
pca.f2z | Factors to Variables using PCA |
pca.plot | Plot Variables along Factors of the PCA |
pca.print | Print the PCA |
pca.z2f | Variables to Factors using PCA |
plot-method | Plot the various Classes handled within RGeostats |
plot-methods | Plot the various Classes handled within RGeostats |
polygon-class | Class "polygon" Polygons |
polygon.create | Create a Polygon structure |
polygon.digit | Digitalize a 2-D Polygon |
polygon.hull | Calculate the polygon as convex hull of a Data Base |
polygon.inside | Polygonal selection |
polygon.plot | Polygon graphic representation |
polygon.print | Print the Polygon structure |
polygon.projec | Perform the projection for a Polygon |
polygon.read | Read a Polygon from an ASCII file (RGeostats format) |
polygon.read.format | Read Polygon from a Shapefile |
polygon.write | Write a Polygon in an ASCII file (RGeostats format) |
polyset-class | Class "polyset" Polysets |
potential.cov | Establish the covariance in the Potential CoKriging System |
potential.kriging | Estimation using the Potential Method |
potential.simulate | Perform simulations using the Potential Model |
potential.xvalid | Perform the Cross-Validation in the Potential Framework |
print-method | Print the various Classes handled within RGeostats |
projec.define | Define the Projection |
projec.grid | Grid and Projection |
projec.invert | Translate nautical mile into long,lat |
projec.operate | Perform the projection |
projec.query | Ask for the Projection characteristics |
projec.toggle | Toggle the Projection switch |
properties.define | Definition of the Model Transformation |
quad.optim | Quadratic optimization under equality and/or inequality constraints |
regression | Linear Regression |
rg.colors | Create various vectors of colors |
rg.load | Upload a Dataset |
rule-class | Class "rule" Lithotype rules |
rule.auto | Automatic fitting of Lithotype Rule |
rule.check | Check the compatibility between Dbin, Rule, Dbprop and Props |
rule.create | Create a Rule from arguments |
rule.plot | Plot the Lithotype Rule |
rule.print | Print the Lithotype Rulen |
rule.read | Read the Lithotype Rule from an ASCII file (RGeostats format) |
rule.thresh | Convert proportions into thresholds for a given Rule |
rule.write | Dump a Rule in an ASCII file (RGeostats format) |
sampling | Derive a model-based sampling on a Data set |
schmidt.plot | Plot a Schmidt diagram |
segy.read | Reading a SEGY File |
seismic.convert | Convert from Time to Depth or vice-versa |
seismic.convolve | Convolute the seismic attributes |
seismic.estim | Seismic CoKriging |
seismic.grid.define | Create Seismic converted Grid |
seismic.operate | Perform operations on the seismic attributes |
seismic.simu | Seismic CoSimulation |
selectivity | Calculate the grade-tonnage values |
selectivity.curve | Graphic representation of the Grade-Tonnage array |
selectivity.qt | Calculate Grade-Tonnage curves from estimated Q and T variables |
set.keypair | Define a key-pair binding |
show-method | Class "anam" Gaussian Anamorphosis |
show-method | Class "db" The RGeostats Data Base |
show-method | Class "ffam" Family definition (used in a 'fracture') |
show-method | Class "ffault" Fault definition (used in a 'fracture') |
show-method | Class "fracsimu" Set of Simulated Fractures |
show-method | Class "fracture" Set of Fault and Fractures |
show-method | Class "limits" characteristics |
show-method | Class "mesh" definition |
show-method | Class "model" The Geostatistical Model |
show-method | Class "neigh" Neighborhood characteristics |
show-method | Class "polygon" Polygons |
show-method | Class "rule" Lithotype rules |
show-method | Class "vario" Experimental Variograms |
SI.cgi | Center of Gravity and Inertia |
SI.gic | Global Index of Collocation |
SI.lic | Local index of collocation |
SI.micro | Microstructure index |
SI.patches | Number of spatial patches |
SI.stats | Calculate Spatial Indices |
simbayes | Performs Simulations with Bayesian Drift |
simbipgs | Bi-Plurigaussian Conditional Simulations |
simbool | Perform Boolean Simulations |
simcond | Conditional Expectation with Inequalities |
simdgm | Block Simulation using Dicrete Gaussian Model |
simfft | Simulation using FFT Method |
simfft.support | Calculate the change of support coefficients by FFT method |
simfine | Refine a simulation grid |
simmaxstable | Non-conditional Simulation of the Max-Stable Model on a grid |
simpart | Non-conditional Simulation for a Tessellation |
simpgs | Plurigaussian Conditional Simulations |
simRI | Non-conditional Simulation of the Orthogonal Residual Model |
simsph | Gaussian Simulation in Spherical Coordinates |
simsub | Substitution Simulation |
simtub | Performs Simulations |
sind | Compute the sine of an angle entered in degrees |
spde | Perform Estimation or Simulations using SPDE technology |
spde.eval | Calculate the product of X by Q raised to a given power |
spde.matrices | Build and return the Precision matrix |
spde.multigrid | Perform Multigrid evaluation in SPDE |
spde.proportions | Estimation of proportions |
spill.point | Calculate the Spill Point of a surface in a 2-D grid |
statgrid.props | Calculates the proportions in 1-D from a regular grid |
statgrid.trans | Calculates the transition probabilities in 1-D from a regular grid |
stats.sampling | Multivariate Statistical Sampling |
streamlines | Calculate the set of streamlines from Drop points in a Grid Db |
tab.rename | Naming convention for output variables in Db |
tand | Compute the tangent of an angle entered in degrees |
temp.serie | Temporal Serie |
test.args | Check the validity of R to C argument decoding |
tokens-class | Class "tokens" Tokens Definition |
tokens.create | Create a set of tokens for Boolean simulation |
tokens.print | Print the Tokens Definition |
tokone-class | Class "tokone" set of tokens Definition |
topcut.eda | Exploratory Analysis for the TopCut Model |
uc | Uniform Conditioning |
uc.check | Check the validity of the Drift information |
uc.names | Give the definition of the Drift |
util.ang2mat | Converts angles (degrees) to rotation matrix |
util.defpositive | Check if the input matrix is definite positive |
util.dir2ang | Converts direction vector to angles |
util.FFT | Calculate FFT transform |
util.mat2ang | Converts rotation matrix to angles |
util.modangles | Convert angle within interval in degrees |
util.modconvert | Convert old-style into new-style Model |
util.mvncdf | Multivariate Gaussian cumulated density function |
util.nonneg.matrix | Check if the matrix is non negative |
util.rotmat | Check if the input matrix is a rotation matrix |
util.write.colors | Generate colorscale text file for Geotiff generation |
vardir-class | Class "vardir" Elementary experimental variogram |
variety.define | Define the Variety |
variety.get | Returns the characteristics of the Variety |
variety.query | Ask for the Projection characteristics |
variety.toggle | Toggle the Variety switch |
vario-class | Class "vario" Experimental Variograms |
vario.average | Calculate the average of variograms |
vario.calc | Computes experimental variograms |
vario.create | Create a variogram from arguments |
vario.extract | Extract the contents of a variogram |
vario.grid | Computes experimental variograms on a grid |
vario.model.check | Check Variogram - Model compatibility |
vario.pgs | Calculate the variogram of the Underlying GRFs from the categories (e.g lithofacies) |
vario.plot | Model multivariate graphic representation |
vario.print | Print a Variogram. |
vario.read | Read a Variogram from an ASCII file (RGeostats format) |
vario.reduce | Extract a sub-variogram from an input experimental variogram |
vario.trans.cut | Transform variogram of truncated variable into variogram of completed variable |
vario.transfo | Performs transformations between experimental variograms |
vario.vect | Computes Covariance for directional variable |
vario.window | Define the window containing an experimental variogram |
vario.write | Dump a Variogram in an ASCII file (RGeostats format) |
vario.y2z | Derive Experimental variogram of Raw variable from Gaussian Model |
vmap.auto | Automatic Model Fitting on Variogram Map |
vmap.calc | Calculate the Variogram Map for a set of variables on a set of isolated points |
vmap.grid | Variogram Map calculation |
vpc.calc | Calculate the VPC matrix |
vpc.plot | Represent a set of VPC from a Db Grid |
walker | Walker Lake sample and exhaustive data sets |
walker_dat | Walker Lake sample and exhaustive data sets |
walker_exh | Walker Lake sample and exhaustive data sets |
workspace.RGeoS.to.RGeostats | Update a RGeoS' workspace into a RGeostats' workspace |
xvalid | Performs Cross-Validation |
zcut.optimal | Find a set of optimal cutoffs |
Z_data.db | Standard Points Db used for documentation of RGeostats package |
Z_multi.model | A Multivariate variogram model example. |
Z_parcelles100 | Data file used for Selectivity Example |
$-method | Class "anam" Gaussian Anamorphosis |
$-method | Class "db" The RGeostats Data Base |
$-method | Class "ffam" Family definition (used in a 'fracture') |
$-method | Class "ffault" Fault definition (used in a 'fracture') |
$-method | Class "fracsimu" Set of Simulated Fractures |
$-method | Class "fracture" Set of Fault and Fractures |
$-method | Class "limits" characteristics |
$-method | Class "melem" Basic Structure |
$-method | Class "mesh" definition |
$-method | Class "model" The Geostatistical Model |
$-method | Class "neigh" Neighborhood characteristics |
$-method | Class "pca" Factorization Linear Transformation |
$-method | Class "polygon" Polygons |
$-method | Class "polyset" Polysets |
$-method | Class "rule" Lithotype rules |
$-method | Class "tokens" Tokens Definition |
$-method | Class "tokone" set of tokens Definition |
$-method | Class "vardir" Elementary experimental variogram |
$-method | Class "vario" Experimental Variograms |
$<--method | Class "anam" Gaussian Anamorphosis |
$<--method | Class "db" The RGeostats Data Base |
$<--method | Class "ffam" Family definition (used in a 'fracture') |
$<--method | Class "ffault" Fault definition (used in a 'fracture') |
$<--method | Class "fracsimu" Set of Simulated Fractures |
$<--method | Class "fracture" Set of Fault and Fractures |
$<--method | Class "limits" characteristics |
$<--method | Class "melem" Basic Structure |
$<--method | Class "mesh" definition |
$<--method | Class "model" The Geostatistical Model |
$<--method | Class "neigh" Neighborhood characteristics |
$<--method | Class "pca" Factorization Linear Transformation |
$<--method | Class "polygon" Polygons |
$<--method | Class "polyset" Polysets |
$<--method | Class "rule" Lithotype rules |
$<--method | Class "tokens" Tokens Definition |
$<--method | Class "tokone" set of tokens Definition |
$<--method | Class "vardir" Elementary experimental variogram |
$<--method | Class "vario" Experimental Variograms |
[-method | Class "anam" Gaussian Anamorphosis |
[-method | Class "db" The RGeostats Data Base |
[-method | Class "limits" characteristics |
[-method | Class "model" The Geostatistical Model |
[-method | Class "polygon" Polygons |
[-method | Class "tokens" Tokens Definition |
[-method | Class "vardir" Elementary experimental variogram |
[-method | Class "vario" Experimental Variograms |
[<--method | Class "anam" Gaussian Anamorphosis |
[<--method | Class "db" The RGeostats Data Base |
[<--method | Class "limits" characteristics |
[<--method | Class "model" The Geostatistical Model |
[<--method | Class "polygon" Polygons |
[<--method | Class "tokens" Tokens Definition |
[<--method | Class "vardir" Elementary experimental variogram |
[<--method | Class "vario" Experimental Variograms |