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Simulations🍋

SGS 🍋

Bases: Simulations

Sequential Gaussian Simulations Solver class.

Parameters:

Name Type Description Default
covariance_model Union[Covariance, CovarianceElem]

Covariance used for distance computation.

 required
neighborhood_model Neighborhood

Neighborhood model used for weights computation.

 required
axes List[Coord]

If solver is 2D or 3D.

 [Coord.U, Coord.V, Coord.W]

Attributes:

Name Type Description
covariance_model

Covariance used for distance computation.
neighborhood_model

Neighborhood model used for weights computation.
axes

If solver is 2D or 3D.

solve(obj, obj_region, obj_attribute, support, support_region, support_attribute, simulations_number) 🍋

Solve SGS on a support using a conditioning object.

Parameters:

Name Type Description Default
obj GeoRefObject

Conditioning Object.

 required
obj_region Optional[str]

Spatial subset of conditioning.

 required
obj_attribute str

Property to estimate.

 required
support GeoRefObject

Object to estimate onto.

 required
support_region Optional[str]

Spatial subset of estimation.

 required
support_attribute str

Property name to add in support.

 required
simulations_number int

Number of simulations to be realized.

 required

Raises:

Type Description
Warning

Maximum allowed neighbors is higher than number of conditioning data.

Simulations 🍋

Bases: Entity

Simulations Solver class.

Parameters:

Name Type Description Default
covariance_model Union[Covariance, CovarianceElem]

Covariance used for distance computation.

 required
neighborhood_model Neighborhood

Neighborhood model used for weights computation.

 required
axes List[Coord]

If solver is 2D or 3D.

 [Coord.U, Coord.V, Coord.W]

Attributes:

Name Type Description
covariance_model

Covariance used for distance computation.
neighborhood_model

Neighborhood model used for weights computation.
axes

If solver is 2D or 3D.

solve() abstractmethod 🍋

Use the defined method to interpolate onto target locations.