Oriented Local translation Deformation Module¶

Oriented Local translation deformation module

class DeformationModules.OrientedTranslation.OrientedTranslationsBase(manifold, sigma, coeff, label)[source]¶

Module generating sum of oriented translations.

__call__(points, k=0)[source]¶

Computes the k’th derivative of the module generated vector field at positions given by points.

Parameters

points (torch.Tensor) – A \(N \times d\) dimensioned tensor representing the points at which the generated vector field will be computed
k (int, default=0) – The order of the derivative at which the generated vector field will be computed

Returns

A tensor representing the values of the k’th derivative of the generated vector field at positions given by points. For \(k=0\), the output tensor is of shape \(N \times d\). For \(k=1\), the output tensor is of shape \(N \times d \times d\), and so on for subsequent orders.

Return type

torch.Tensor

adjoint(manifold)[source]¶

classmethod build(dim, nb_pts, sigma, transport='vector', coeff=1.0, gd=None, tan=None, cotan=None, label=None)[source]¶

property coeff¶

compute_geodesic_control(man)[source]¶

Computes the geodesic control of the deformation module on the specified manifold.

Parameters: manifold (Manifolds.BaseManifold) – Manifold on which we will compute the geodesic controls

property controls¶

copy()¶: Returns a copy of the deformation module.

cost()[source]¶

Computes the cost of the deformation given by the module.

Returns: The cost as a scalar tensor.
Return type: torch.Tensor

property device¶

property dim¶

field_generator()[source]¶

Gives the vector field generated by the deformation module.

Returns: The vector field generated by the module
Return type: StructuredField.BaseStructuredField

fill_controls(controls)[source]¶

fill_controls_zero()[source]¶

property label¶: Identifier for the module.

property manifold¶

property sigma¶

to_(*args, **kwargs)[source]¶