Geostatistics¶

Directional statistics for single grid¶

Description¶

Parameters¶

Grid [raster]

Points [vector: any]

Optional.

Direction [Degree] [number]

Default: 0.0

Tolerance [Degree] [number]

Default: 0.0

Maximum Distance [Cells] [number]

Default: 0

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 1

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 1.0

Outputs¶

Arithmetic Mean [raster]: <put output description here>
Difference from Arithmetic Mean [raster]: <put output description here>
Minimum [raster]: <put output description here>
Maximum [raster]: <put output description here>
Range [raster]: <put output description here>
Variance [raster]: <put output description here>
Standard Deviation [raster]: <put output description here>
Mean less Standard Deviation [raster]: <put output description here>
Mean plus Standard Deviation [raster]: <put output description here>
Deviation from Arithmetic Mean [raster]: <put output description here>
Percentile [raster]: <put output description here>
Directional Statistics for Points [vector]: <put output description here>

Console usage¶

processing.runalg('saga:directionalstatisticsforsinglegrid', grid, points, direction, tolerance, maxdistance, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, mean, difmean, min, max, range, var, stddev, stddevlo, stddevhi, devmean, percent, points_out)

Fast representativeness¶

Description¶

Parameters¶

Input [raster]

Level of Generalisation [number]

Default: 16

Outputs¶

Output [raster]: <put output description here>
Output Lod [raster]: <put output description here>
Output Seeds [raster]: <put output description here>

Console usage¶

processing.runalg('saga:fastrepresentativeness', input, lod, result, result_lod, seeds)

Geographically weighted multiple regression (points/grids)¶

Description¶

Parameters¶

Predictors [multipleinput: rasters]

Output of Regression Parameters [boolean]

Default: True

Points [vector: point]

Dependent Variable [tablefield: any]

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 1

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 1.0

Search Range [selection]

Options:

0 — [0] search radius (local)
1 — [1] no search radius (global)

Default: 0

Search Radius [number]

Default: 100

Search Mode [selection]

Options:

0 — [0] all directions
1 — [1] quadrants

Default: 0

Number of Points [selection]

Options:

0 — [0] maximum number of observations
1 — [1] all points

Default: 0

Maximum Number of Observations [number]

Default: 10

Minimum Number of Observations [number]

Default: 4

Outputs¶

Regression [raster]: <put output description here>
Coefficient of Determination [raster]: <put output description here>
Regression Parameters [raster]: <put output description here>
Residuals [vector]: <put output description here>

Console usage¶

processing.runalg('saga:geographicallyweightedmultipleregressionpointsgrids', predictors, parameters, points, dependent, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, range, radius, mode, npoints, maxpoints, minpoints, regression, quality, slopes, residuals)

Geographically weighted multiple regression (points)¶

Description¶

Parameters¶

Points [vector: any]

Dependent Variable [tablefield: any]

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 1

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 1.0

Search Range [selection]

Options:

0 — [0] search radius (local)
1 — [1] no search radius (global)

Default: 0

Search Radius [number]

Default: 100

Search Mode [selection]

Options:

0 — [0] all directions
1 — [1] quadrants

Default: 0

Number of Points [selection]

Options:

0 — [0] maximum number of observations
1 — [1] all points

Default: 0

Maximum Number of Observations [number]

Default: 10

Minimum Number of Observations [number]

Default: 4

Outputs¶

Regression [vector]: <put output description here>

Console usage¶

processing.runalg('saga:geographicallyweightedmultipleregressionpoints', points, dependent, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, range, radius, mode, npoints, maxpoints, minpoints, regression)

Geographically weighted multiple regression¶

Description¶

Parameters¶

Points [vector: point]

Dependent Variable [tablefield: any]

Target Grids [selection]

Options:

0 — [0] user defined

Default: 0

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 1

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 1

Search Range [selection]

Options:

0 — [0] search radius (local)
1 — [1] no search radius (global)

Default: 0

Search Radius [number]

Default: 100

Search Mode [selection]

Options:

0 — [0] all directions
1 — [1] quadrants

Default: 0

Number of Points [selection]

Options:

0 — [0] maximum number of observations
1 — [1] all points

Default: 0

Maximum Number of Observations [number]

Default: 10

Minimum Number of Observations [number]

Default: 4

Output extent [extent]

Default: 0,1,0,1

Cellsize [number]

Default: 100.0

Outputs¶

Quality [raster]: <put output description here>
Intercept [raster]: <put output description here>
Quality [raster]: <put output description here>
Intercept [raster]: <put output description here>

Console usage¶

processing.runalg('saga:geographicallyweightedmultipleregression', points, dependent, target, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, range, radius, mode, npoints, maxpoints, minpoints, output_extent, user_size, user_quality, user_intercept, grid_quality, grid_intercept)

Geographically weighted regression (points/grid)¶

Description¶

Parameters¶

Predictor [raster]

Points [vector: point]

Dependent Variable [tablefield: any]

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 1

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 1.0

Search Range [selection]

Options:

0 — [0] search radius (local)
1 — [1] no search radius (global)

Default: 0

Search Radius [number]

Default: 0

Search Mode [selection]

Options:

0 — [0] all directions
1 — [1] quadrants

Default: 0

Number of Points [selection]

Options:

0 — [0] maximum number of observations
1 — [1] all points

Default: 0

Maximum Number of Observations [number]

Default: 10

Minimum Number of Observations [number]

Default: 4

Outputs¶

Regression [raster]: <put output description here>
Coefficient of Determination [raster]: <put output description here>
Intercept [raster]: <put output description here>
Slope [raster]: <put output description here>
Residuals [vector]: <put output description here>

Console usage¶

processing.runalg('saga:geographicallyweightedregressionpointsgrid', predictor, points, dependent, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, range, radius, mode, npoints, maxpoints, minpoints, regression, quality, intercept, slope, residuals)

Geographically weighted regression¶

Description¶

Parameters¶

Points [vector: point]

Dependent Variable [tablefield: any]

Predictor [tablefield: any]

Target Grids [selection]

Options:

0 — [0] user defined

Default: 0

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 0

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 0.0

Search Range [selection]

Options:

0 — [0] search radius (local)
1 — [1] no search radius (global)

Default: 0

Search Radius [number]

Default: 100

Search Mode [selection]

Options:

0 — [0] all directions
1 — [1] quadrants

Default: 0

Number of Points [selection]

Options:

0 — [0] maximum number of observations
1 — [1] all points

Default: 0

Maximum Number of Observations [number]

Default: 10

Minimum Number of Observations [number]

Default: 4

Output extent [extent]

Default: 0,1,0,1

Cellsize [number]

Default: 100.0

Outputs¶

Grid [raster]: <put output description here>
Quality [raster]: <put output description here>
Intercept [raster]: <put output description here>
Slope [raster]: <put output description here>

Console usage¶

processing.runalg('saga:geographicallyweightedregression', points, dependent, predictor, target, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, range, radius, mode, npoints, maxpoints, minpoints, output_extent, user_size, user_grid, user_quality, user_intercept, user_slope)

Global moran’s i for grids¶

Description¶

Parameters¶

Grid [raster]

Case of contiguity [selection]

Options:

0 — [0] Rook
1 — [1] Queen

Default: 0

Outputs¶

Result [table]: <put output description here>

Console usage¶

processing.runalg('saga:globalmoransiforgrids', grid, contiguity, result)

Minimum distance analysis¶

Description¶

Performs a complete distance analysis of a point layer:

minimum distance of points
maximum distance of points
average distance of all the points
standard deviation of the distance
duplicated points

Parameters¶

Points [vector: point]: Layer to analyze.

Outputs¶

Minimum Distance Analysis [table]: The resulting table.

Console usage¶

processing.runalg('saga:minimumdistanceanalysis', points, table)

Multi-band variation¶

Description¶

Parameters¶

Grids [multipleinput: rasters]

Radius [Cells] [number]

Default: 1

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 1

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 1.0

Outputs¶

Mean Distance [raster]: <put output description here>
Standard Deviation [raster]: <put output description here>
Distance [raster]: <put output description here>

Console usage¶

processing.runalg('saga:multibandvariation', bands, radius, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, mean, stddev, diff)

Multiple regression analysis (grid/grids)¶

Description¶

Parameters¶

Dependent [raster]

Grids [multipleinput: rasters]

Grid Interpolation [selection]

Options:

0 — [0] Nearest Neighbor
1 — [1] Bilinear Interpolation
2 — [2] Inverse Distance Interpolation
3 — [3] Bicubic Spline Interpolation
4 — [4] B-Spline Interpolation

Default: 0

Include X Coordinate [boolean]

Default: True

Include Y Coordinate [boolean]

Default: True

Method [selection]

Options:

0 — [0] include all
1 — [1] forward
2 — [2] backward
3 — [3] stepwise

Default: 0

P in [number]

Default: 5

P out [number]

Default: 5

Outputs¶

Regression [raster]: <put output description here>
Residuals [raster]: <put output description here>
Details: Coefficients [table]: <put output description here>
Details: Model [table]: <put output description here>
Details: Steps [table]: <put output description here>

Console usage¶

processing.runalg('saga:multipleregressionanalysisgridgrids', dependent, grids, interpol, coord_x, coord_y, method, p_in, p_out, regression, residuals, info_coeff, info_model, info_steps)

Multiple regression analysis (points/grids)¶

Description¶

Parameters¶

Grids [multipleinput: rasters]

Shapes [vector: any]

Attribute [tablefield: any]

Grid Interpolation [selection]

Options:

0 — [0] Nearest Neighbor
1 — [1] Bilinear Interpolation
2 — [2] Inverse Distance Interpolation
3 — [3] Bicubic Spline Interpolation
4 — [4] B-Spline Interpolation

Default: 0

Include X Coordinate [boolean]

Default: True

Include Y Coordinate [boolean]

Default: True

Method [selection]

Options:

0 — [0] include all
1 — [1] forward
2 — [2] backward
3 — [3] stepwise

Default: 0

P in [number]

Default: 5

P out [number]

Default: 5

Outputs¶

Details: Coefficients [table]: <put output description here>
Details: Model [table]: <put output description here>
Details: Steps [table]: <put output description here>
Residuals [vector]: <put output description here>
Regression [raster]: <put output description here>

Console usage¶

processing.runalg('saga:multipleregressionanalysispointsgrids', grids, shapes, attribute, interpol, coord_x, coord_y, method, p_in, p_out, info_coeff, info_model, info_steps, residuals, regression)

Polynomial regression¶

Description¶

Parameters¶

Points [vector: any]

Attribute [tablefield: any]

Polynom [selection]

Options:

0 — [0] simple planar surface
1 — [1] bi-linear saddle
2 — [2] quadratic surface
3 — [3] cubic surface
4 — [4] user defined

Default: 0

Maximum X Order [number]

Default: 4

Maximum Y Order [number]

Default: 4

Maximum Total Order [number]

Default: 4

Trend Surface [selection]

Options:

0 — [0] user defined

Default: 0

Output extent [extent]

Default: 0,1,0,1

Cellsize [number]

Default: 100.0

Outputs¶

Residuals [vector]: <put output description here>
Grid [raster]: <put output description here>

Console usage¶

processing.runalg('saga:polynomialregression', points, attribute, polynom, xorder, yorder, torder, target, output_extent, user_size, residuals, user_grid)

Radius of variance (grid)¶

Description¶

Parameters¶

Grid [raster]

Standard Deviation [number]

Default: 1.0

Maximum Search Radius (cells) [number]

Default: 20

Type of Output [selection]

Options:

0 — [0] Cells
1 — [1] Map Units

Default: 0

Outputs¶

Variance Radius [raster]: <put output description here>

Console usage¶

processing.runalg('saga:radiusofvariancegrid', input, variance, radius, output, result)

Regression analysis¶

Description¶

Parameters¶

Grid [raster]

Shapes [vector: any]

Attribute [tablefield: any]

Grid Interpolation [selection]

Options:

0 — [0] Nearest Neighbor
1 — [1] Bilinear Interpolation
2 — [2] Inverse Distance Interpolation
3 — [3] Bicubic Spline Interpolation
4 — [4] B-Spline Interpolation

Default: 0

Regression Function [selection]

Options:

0 — [0] Y = a + b * X (linear)
1 — [1] Y = a + b / X
2 — [2] Y = a / (b - X)
3 — [3] Y = a * X^b (power)
4 — [4] Y = a e^(b * X) (exponential)
5 — [5] Y = a + b * ln(X) (logarithmic)

Default: 0

Outputs¶

Regression [raster]: <put output description here>
Residuals [vector]: <put output description here>

Console usage¶

processing.runalg('saga:regressionanalysis', grid, shapes, attribute, interpol, method, regression, residual)

Representativeness¶

Description¶

Parameters¶

Grid [raster]

Radius (Cells) [number]

Default: 10

Exponent [number]

Default: 1

Outputs¶

Representativeness [raster]: <put output description here>

Console usage¶

processing.runalg('saga:representativeness', input, radius, exponent, result)

Residual analysis¶

Description¶

Parameters¶

Grid [raster]

Radius (Cells) [number]

Default: 7

Distance Weighting [selection]

Options:

0 — [0] no distance weighting
1 — [1] inverse distance to a power
2 — [2] exponential
3 — [3] gaussian weighting

Default: 0

Inverse Distance Weighting Power [number]

Default: 1

Inverse Distance Offset [boolean]

Default: True

Gaussian and Exponential Weighting Bandwidth [number]

Default: 1.0

Outputs¶

Mean Value [raster]: <put output description here>
Difference from Mean Value [raster]: <put output description here>
Standard Deviation [raster]: <put output description here>
Value Range [raster]: <put output description here>
Minimum Value [raster]: <put output description here>
Maximum Value [raster]: <put output description here>
Deviation from Mean Value [raster]: <put output description here>
Percentile [raster]: <put output description here>

Console usage¶

processing.runalg('saga:residualanalysis', grid, radius, distance_weighting_weighting, distance_weighting_idw_power, distance_weighting_idw_offset, distance_weighting_bandwidth, mean, diff, stddev, range, min, max, devmean, percent)

Spatial point pattern analysis¶

Description¶

Parameters¶

Points [vector: point]

Vertex Distance [Degree] [number]

Default: 5

Outputs¶

Mean Centre [vector]: <put output description here>
Standard Distance [vector]: <put output description here>
Bounding Box [vector]: <put output description here>

Console usage¶

processing.runalg('saga:spatialpointpatternanalysis', points, step, centre, stddist, bbox)

Statistics for grids¶

Description¶

Parameters¶

Grids [multipleinput: rasters]: <put parameter description here>

Outputs¶

Arithmetic Mean [raster]: <put output description here>
Minimum [raster]: <put output description here>
Maximum [raster]: <put output description here>
Variance [raster]: <put output description here>
Standard Deviation [raster]: <put output description here>
Mean less Standard Deviation [raster]: <put output description here>
Mean plus Standard Deviation [raster]: <put output description here>

Console usage¶

processing.runalg('saga:statisticsforgrids', grids, mean, min, max, var, stddev, stddevlo, stddevhi)

Variogram cloud¶

Description¶

Parameters¶

Points [vector: point]

Attribute [tablefield: any]

Maximum Distance [number]

Default: 0.0

Skip Number [number]

Default: 1

Outputs¶

Variogram Cloud [table]: <put output description here>

Console usage¶

processing.runalg('saga:variogramcloud', points, field, distmax, nskip, result)

Variogram surface¶

Description¶

Parameters¶

Points [vector: point]

Attribute [tablefield: any]

Number of Distance Classes [number]

Default: 10

Skip Number [number]

Default: 1

Outputs¶

Number of Pairs [raster]: <put output description here>
Variogram Surface [raster]: <put output description here>
Covariance Surface [raster]: <put output description here>

Console usage¶

processing.runalg('saga:variogramsurface', points, field, distcount, nskip, count, variance, covariance)

Zonal grid statistics¶

Description¶

Parameters¶

Zone Grid [raster]

Categorial Grids [multipleinput: rasters]

Optional.

Grids to analyse [multipleinput: rasters]

Optional.

Aspect [raster]

Optional.

Short Field Names [boolean]

Default: True

Outputs¶

Zonal Statistics [table]: <put output description here>

Console usage¶

processing.runalg('saga:zonalgridstatistics', zones, catlist, statlist, aspect, shortnames, outtab)

Daftar Isi

Geostatistics¶

Directional statistics for single grid¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Fast representativeness¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Geographically weighted multiple regression (points/grids)¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Geographically weighted multiple regression (points)¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Geographically weighted multiple regression¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Geographically weighted regression (points/grid)¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Geographically weighted regression¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Global moran’s i for grids¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Minimum distance analysis¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Multi-band variation¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Multiple regression analysis (grid/grids)¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Multiple regression analysis (points/grids)¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶

Polynomial regression¶

Description¶

Parameters¶

Outputs¶

Console usage¶

See also¶