find_deformable_surface_modelT_find_deformable_surface_modelFindDeformableSurfaceModelFindDeformableSurfaceModelfind_deformable_surface_model (Operator)
Name
find_deformable_surface_modelT_find_deformable_surface_modelFindDeformableSurfaceModelFindDeformableSurfaceModelfind_deformable_surface_model
— Find the best match of a deformable surface model in a 3D scene.
Signature
void FindDeformableSurfaceModel(const HTuple& DeformableSurfaceModel, const HTuple& ObjectModel3D, const HTuple& RelSamplingDistance, const HTuple& MinScore, const HTuple& GenParamName, const HTuple& GenParamValue, HTuple* Score, HTuple* DeformableSurfaceMatchingResult)
HTuple HObjectModel3D::FindDeformableSurfaceModel(const HDeformableSurfaceModel& DeformableSurfaceModel, double RelSamplingDistance, const HTuple& MinScore, const HTuple& GenParamName, const HTuple& GenParamValue, HDeformableSurfaceMatchingResultArray* DeformableSurfaceMatchingResult) const
double HObjectModel3D::FindDeformableSurfaceModel(const HDeformableSurfaceModel& DeformableSurfaceModel, double RelSamplingDistance, double MinScore, const HTuple& GenParamName, const HTuple& GenParamValue, HDeformableSurfaceMatchingResult* DeformableSurfaceMatchingResult) const
HTuple HDeformableSurfaceModel::FindDeformableSurfaceModel(const HObjectModel3D& ObjectModel3D, double RelSamplingDistance, const HTuple& MinScore, const HTuple& GenParamName, const HTuple& GenParamValue, HDeformableSurfaceMatchingResultArray* DeformableSurfaceMatchingResult) const
double HDeformableSurfaceModel::FindDeformableSurfaceModel(const HObjectModel3D& ObjectModel3D, double RelSamplingDistance, double MinScore, const HTuple& GenParamName, const HTuple& GenParamValue, HDeformableSurfaceMatchingResult* DeformableSurfaceMatchingResult) const
static HTuple HDeformableSurfaceMatchingResult::FindDeformableSurfaceModel(const HDeformableSurfaceModel& DeformableSurfaceModel, const HObjectModel3D& ObjectModel3D, double RelSamplingDistance, const HTuple& MinScore, const HTuple& GenParamName, const HTuple& GenParamValue, HDeformableSurfaceMatchingResultArray* DeformableSurfaceMatchingResult)
double HDeformableSurfaceMatchingResult::FindDeformableSurfaceModel(const HDeformableSurfaceModel& DeformableSurfaceModel, const HObjectModel3D& ObjectModel3D, double RelSamplingDistance, double MinScore, const HTuple& GenParamName, const HTuple& GenParamValue)
static void HOperatorSet.FindDeformableSurfaceModel(HTuple deformableSurfaceModel, HTuple objectModel3D, HTuple relSamplingDistance, HTuple minScore, HTuple genParamName, HTuple genParamValue, out HTuple score, out HTuple deformableSurfaceMatchingResult)
HTuple HObjectModel3D.FindDeformableSurfaceModel(HDeformableSurfaceModel deformableSurfaceModel, double relSamplingDistance, HTuple minScore, HTuple genParamName, HTuple genParamValue, out HDeformableSurfaceMatchingResult[] deformableSurfaceMatchingResult)
double HObjectModel3D.FindDeformableSurfaceModel(HDeformableSurfaceModel deformableSurfaceModel, double relSamplingDistance, double minScore, HTuple genParamName, HTuple genParamValue, out HDeformableSurfaceMatchingResult deformableSurfaceMatchingResult)
HTuple HDeformableSurfaceModel.FindDeformableSurfaceModel(HObjectModel3D objectModel3D, double relSamplingDistance, HTuple minScore, HTuple genParamName, HTuple genParamValue, out HDeformableSurfaceMatchingResult[] deformableSurfaceMatchingResult)
double HDeformableSurfaceModel.FindDeformableSurfaceModel(HObjectModel3D objectModel3D, double relSamplingDistance, double minScore, HTuple genParamName, HTuple genParamValue, out HDeformableSurfaceMatchingResult deformableSurfaceMatchingResult)
static HTuple HDeformableSurfaceMatchingResult.FindDeformableSurfaceModel(HDeformableSurfaceModel deformableSurfaceModel, HObjectModel3D objectModel3D, double relSamplingDistance, HTuple minScore, HTuple genParamName, HTuple genParamValue, out HDeformableSurfaceMatchingResult[] deformableSurfaceMatchingResult)
double HDeformableSurfaceMatchingResult.FindDeformableSurfaceModel(HDeformableSurfaceModel deformableSurfaceModel, HObjectModel3D objectModel3D, double relSamplingDistance, double minScore, HTuple genParamName, HTuple genParamValue)
def find_deformable_surface_model(deformable_surface_model: HHandle, object_model_3d: HHandle, rel_sampling_distance: float, min_score: Union[float, int], gen_param_name: Sequence[str], gen_param_value: Sequence[Union[str, float, int]]) -> Tuple[Sequence[float], Sequence[HHandle]]
def find_deformable_surface_model_s(deformable_surface_model: HHandle, object_model_3d: HHandle, rel_sampling_distance: float, min_score: Union[float, int], gen_param_name: Sequence[str], gen_param_value: Sequence[Union[str, float, int]]) -> Tuple[float, HHandle]
Description
The operator find_deformable_surface_modelfind_deformable_surface_modelFindDeformableSurfaceModelFindDeformableSurfaceModelFindDeformableSurfaceModelfind_deformable_surface_model
finds the best match of
the deformable surface model DeformableSurfaceModelDeformableSurfaceModelDeformableSurfaceModelDeformableSurfaceModeldeformableSurfaceModeldeformable_surface_model
in the 3D scene
ObjectModel3DObjectModel3DObjectModel3DObjectModel3DobjectModel3Dobject_model_3d
.
The deformable surface model must have been
created previously with, for example, create_deformable_surface_modelcreate_deformable_surface_modelCreateDeformableSurfaceModelCreateDeformableSurfaceModelCreateDeformableSurfaceModelcreate_deformable_surface_model
.
The matching requires that the 3D object model ObjectModel3DObjectModel3DObjectModel3DObjectModel3DobjectModel3Dobject_model_3d
contains points and normals.
The scene shall provide one of the following options:
It is important for an accurate pose that the normals of the scene
and the model point in the same direction (see
'scene_invert_normals'"scene_invert_normals""scene_invert_normals""scene_invert_normals""scene_invert_normals""scene_invert_normals").
Note that triangles or polygons in the passed scene are ignored.
Instead, only the vertices are used for matching.
It is thus in general not recommended to use this operator on meshed scenes,
such as CAD data.
Instead, such a scene must be sampled beforehand using
sample_object_model_3dsample_object_model_3dSampleObjectModel3dSampleObjectModel3dSampleObjectModel3dsample_object_model_3d
to create points and normals.
When using noisy point clouds, e.g., from time-of-flight cameras, the
generic parameter 'scene_normal_computation'"scene_normal_computation""scene_normal_computation""scene_normal_computation""scene_normal_computation""scene_normal_computation" should be set to
'mls'"mls""mls""mls""mls""mls" in order to obtain more robust results (see below).
First, points are sampled uniformly from the scene passed in
ObjectModel3DObjectModel3DObjectModel3DObjectModel3DobjectModel3Dobject_model_3d
. The sampling distance is controlled with
the parameter RelSamplingDistanceRelSamplingDistanceRelSamplingDistanceRelSamplingDistancerelSamplingDistancerel_sampling_distance
, and is given relative
to the diameter of the surface model.
Decreasing RelSamplingDistanceRelSamplingDistanceRelSamplingDistanceRelSamplingDistancerelSamplingDistancerel_sampling_distance
leads to more sampled points,
and in turn to a more stable but slower matching. Increasing
RelSamplingDistanceRelSamplingDistanceRelSamplingDistanceRelSamplingDistancerelSamplingDistancerel_sampling_distance
reduces the number of sampled scene
points, which leads to a less stable but faster matching. For an
illustration showing different values for RelSamplingDistanceRelSamplingDistanceRelSamplingDistanceRelSamplingDistancerelSamplingDistancerel_sampling_distance
,
please refer to the operator create_deformable_surface_modelcreate_deformable_surface_modelCreateDeformableSurfaceModelCreateDeformableSurfaceModelCreateDeformableSurfaceModelcreate_deformable_surface_model
.
The operator get_deformable_surface_matching_resultget_deformable_surface_matching_resultGetDeformableSurfaceMatchingResultGetDeformableSurfaceMatchingResultGetDeformableSurfaceMatchingResultget_deformable_surface_matching_result
can be used to
retrieve the sampled scene points for visual inspection.
For a robust matching it is recommended that at least 50-100
scene points are sampled for each object instance.
The method first finds an approximate position of the object.
This position is then refined.
The generic parameters controlling the deformation are described
further down.
If a match was found, the score of the match is returned in ScoreScoreScoreScorescorescore
and a deformable surface matching result handle is
returned in DeformableSurfaceMatchingResultDeformableSurfaceMatchingResultDeformableSurfaceMatchingResultDeformableSurfaceMatchingResultdeformableSurfaceMatchingResultdeformable_surface_matching_result
.
Details of the matching result, such as the deformed model and the position
of the reference points, can be queried with the operator
get_deformable_surface_matching_resultget_deformable_surface_matching_resultGetDeformableSurfaceMatchingResultGetDeformableSurfaceMatchingResultGetDeformableSurfaceMatchingResultget_deformable_surface_matching_result
using the result handle.
The score is normalized between 0 and 1 and represents
the amount of model surface visible in the scene. A value of
1 represents a perfect match.
The parameter MinScoreMinScoreMinScoreMinScoreminScoremin_score
can be used to filter the result.
A match is returned only if its score exceeds the value of
MinScoreMinScoreMinScoreMinScoreminScoremin_score
.
The parameters GenParamNameGenParamNameGenParamNameGenParamNamegenParamNamegen_param_name
and GenParamValueGenParamValueGenParamValueGenParamValuegenParamValuegen_param_value
are used
to set generic parameters. Both get a tuple of equal length, where the
tuple passed to GenParamNameGenParamNameGenParamNameGenParamNamegenParamNamegen_param_name
contains the names of the
parameters to set, and the tuple passed to GenParamValueGenParamValueGenParamValueGenParamValuegenParamValuegen_param_value
contains
the corresponding values. The possible parameter names and values
are described below.
- 'scene_normal_computation'"scene_normal_computation""scene_normal_computation""scene_normal_computation""scene_normal_computation""scene_normal_computation":
-
This parameter controls the normal computation of the sampled
scene.
In the default mode 'fast'"fast""fast""fast""fast""fast", normals are computed based on
a small neighborhood of points.
In the mode 'mls'"mls""mls""mls""mls""mls", normals are computed based on a larger
neighborhood and using the more complex but more accurate
'mls'"mls""mls""mls""mls""mls" method.
A more detailed description of the 'mls'"mls""mls""mls""mls""mls" method can be
found in the description of the operator
surface_normals_object_model_3dsurface_normals_object_model_3dSurfaceNormalsObjectModel3dSurfaceNormalsObjectModel3dSurfaceNormalsObjectModel3dsurface_normals_object_model_3d
.
The 'mls'"mls""mls""mls""mls""mls" mode is intended for noisy data, such as images
from time-of-flight cameras.
List of values: 'fast'"fast""fast""fast""fast""fast", 'mls'"mls""mls""mls""mls""mls"
Default value: 'fast'"fast""fast""fast""fast""fast"
- 'scene_invert_normals'"scene_invert_normals""scene_invert_normals""scene_invert_normals""scene_invert_normals""scene_invert_normals":
-
Invert the orientation of the surface normals of the scene.
The orientation of surface normals of the scene have to match with the
orientation of the model.
If both the model and the scene are acquired with the same setup,
the normals will already point in the same direction.
If you experience the effect that the
model is found on the 'outside' of the scene surface, try to set this
parameter to 'true'"true""true""true""true""true".
Also, make sure that the normals in the scene all point either
outward or inward, i.e., are oriented consistently.
Possible values: 'false'"false""false""false""false""false", 'true'"true""true""true""true""true"
Default value: 'false'"false""false""false""false""false"
- 'pose_ref_num_steps'"pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps":
-
Number of iterations for the refinement. Increasing the
number of iteration leads to a more accurate position at the expense of
runtime.
However, once convergence is reached, the accuracy can no longer be
increased, even if the number of steps is increased.
Suggested values: 1, 10, 25,
50
Default value: 25
Assertion: 'pose_ref_num_steps'"pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps" > 0
- 'pose_ref_dist_threshold_rel'"pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel":
-
Set the distance threshold for refinement relative to the
diameter of the surface model.
Only scene points that are closer to the object than this distance
are used for the optimization. Scene points further
away are ignored.
Suggested values: 0.05, 0.1,
0.25, 0.3
Default value: 0.25
Assertion: 0 < 'pose_ref_dist_threshold_rel'"pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel"
- 'pose_ref_dist_threshold_abs'"pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs":
-
Set the distance threshold for dense pose refinement as absolute
value.
See 'pose_ref_dist_threshold_rel'"pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel" for a detailed
description.
Only one of the parameters 'pose_ref_dist_threshold_rel'"pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel" and
'pose_ref_dist_threshold_abs'"pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs" can be set. If both are set,
only the value of the last parameter is used.
Assertion: 0 < 'pose_ref_dist_threshold_abs'"pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs"
- 'pose_ref_scoring_dist_rel'"pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel":
-
Set the distance threshold for scoring relative to the
diameter of the surface model. See the following
'pose_ref_scoring_dist_abs'"pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs" for a detailed description.
Only one of the parameters 'pose_ref_scoring_dist_rel'"pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel" and
'pose_ref_scoring_dist_abs'"pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs" can be set. If both are set,
only the value of the last parameter is used.
Suggested values: 0.1, 0.05,
0.03, 0.005
Default value: 0.03
Assertion: 0 < 'pose_ref_scoring_dist_rel'"pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel"
- 'pose_ref_scoring_dist_abs'"pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs":
-
Set the distance threshold for scoring.
Only scene points that are closer to the object than this distance
are considered to be 'on the model' when computing the score after
the refinement. All other scene points are considered not to be
on the model.
The value should correspond to the amount of noise on the coordinates
of the scene points.
Only one of the parameters 'pose_ref_scoring_dist_rel'"pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel" and
'pose_ref_scoring_dist_abs'"pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs" can be set. If both are set,
only the value of the last parameter is used.
Assertion: 0 < 'pose_ref_scoring_dist_abs'"pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs"
Execution Information
- Multithreading type: reentrant (runs in parallel with non-exclusive operators).
- Multithreading scope: global (may be called from any thread).
- Automatically parallelized on internal data level.
This operator returns a handle. Note that the state of an instance of this handle type may be changed by specific operators even though the handle is used as an input parameter by those operators.
This operator supports cancelling timeouts and interrupts.
Parameters
DeformableSurfaceModelDeformableSurfaceModelDeformableSurfaceModelDeformableSurfaceModeldeformableSurfaceModeldeformable_surface_model
(input_control) deformable_surface_model →
HDeformableSurfaceModel, HTupleHHandleHTupleHtuple (handle) (IntPtr) (HHandle) (handle)
Handle of the deformable surface model.
ObjectModel3DObjectModel3DObjectModel3DObjectModel3DobjectModel3Dobject_model_3d
(input_control) object_model_3d →
HObjectModel3D, HTupleHHandleHTupleHtuple (handle) (IntPtr) (HHandle) (handle)
Handle of the 3D object model containing the
scene.
RelSamplingDistanceRelSamplingDistanceRelSamplingDistanceRelSamplingDistancerelSamplingDistancerel_sampling_distance
(input_control) real →
HTuplefloatHTupleHtuple (real) (double) (double) (double)
Scene sampling distance relative to the diameter
of the surface model.
Default value: 0.05
Suggested values: 0.1, 0.07, 0.05, 0.04, 0.03
Restriction: 0 < RelSamplingDistance < 1
MinScoreMinScoreMinScoreMinScoreminScoremin_score
(input_control) real →
HTupleUnion[float, int]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Minimum score of the returned match.
Default value: 0
Restriction: MinScore >= 0
GenParamNameGenParamNameGenParamNameGenParamNamegenParamNamegen_param_name
(input_control) attribute.name-array →
HTupleSequence[str]HTupleHtuple (string) (string) (HString) (char*)
Names of the generic parameters.
Default value: []
List of values: 'pose_ref_dist_threshold_abs'"pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs""pose_ref_dist_threshold_abs", 'pose_ref_dist_threshold_rel'"pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel""pose_ref_dist_threshold_rel", 'pose_ref_num_steps'"pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps""pose_ref_num_steps", 'pose_ref_scoring_dist_abs'"pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs""pose_ref_scoring_dist_abs", 'pose_ref_scoring_dist_rel'"pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel""pose_ref_scoring_dist_rel", 'scene_invert_normals'"scene_invert_normals""scene_invert_normals""scene_invert_normals""scene_invert_normals""scene_invert_normals", 'scene_normal_computation'"scene_normal_computation""scene_normal_computation""scene_normal_computation""scene_normal_computation""scene_normal_computation"
GenParamValueGenParamValueGenParamValueGenParamValuegenParamValuegen_param_value
(input_control) attribute.value-array →
HTupleSequence[Union[str, float, int]]HTupleHtuple (string / real / integer) (string / double / int / long) (HString / double / Hlong) (char* / double / Hlong)
Values of the generic parameters.
Default value: []
Suggested values: 'fast'"fast""fast""fast""fast""fast", 'mls'"mls""mls""mls""mls""mls", 0, 1, 10, 25, 50, 0.05, 0.1, 0.25, 0.3, 0.05, 0.03, 0.005
ScoreScoreScoreScorescorescore
(output_control) real(-array) →
HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)
Score of the found instances of the surface
model.
DeformableSurfaceMatchingResultDeformableSurfaceMatchingResultDeformableSurfaceMatchingResultDeformableSurfaceMatchingResultdeformableSurfaceMatchingResultdeformable_surface_matching_result
(output_control) deformable_surface_matching_result(-array) →
HDeformableSurfaceMatchingResult, HTupleSequence[HHandle]HTupleHtuple (handle) (IntPtr) (HHandle) (handle)
Handle of the matching result.
Result
find_deformable_surface_modelfind_deformable_surface_modelFindDeformableSurfaceModelFindDeformableSurfaceModelFindDeformableSurfaceModelfind_deformable_surface_model
returns TRUE if all parameters are
correct. If necessary, an exception is raised.
Possible Predecessors
read_object_model_3dread_object_model_3dReadObjectModel3dReadObjectModel3dReadObjectModel3dread_object_model_3d
,
xyz_to_object_model_3dxyz_to_object_model_3dXyzToObjectModel3dXyzToObjectModel3dXyzToObjectModel3dxyz_to_object_model_3d
,
get_object_model_3d_paramsget_object_model_3d_paramsGetObjectModel3dParamsGetObjectModel3dParamsGetObjectModel3dParamsget_object_model_3d_params
,
read_deformable_surface_modelread_deformable_surface_modelReadDeformableSurfaceModelReadDeformableSurfaceModelReadDeformableSurfaceModelread_deformable_surface_model
,
create_deformable_surface_modelcreate_deformable_surface_modelCreateDeformableSurfaceModelCreateDeformableSurfaceModelCreateDeformableSurfaceModelcreate_deformable_surface_model
,
get_deformable_surface_model_paramget_deformable_surface_model_paramGetDeformableSurfaceModelParamGetDeformableSurfaceModelParamGetDeformableSurfaceModelParamget_deformable_surface_model_param
,
add_deformable_surface_model_reference_pointadd_deformable_surface_model_reference_pointAddDeformableSurfaceModelReferencePointAddDeformableSurfaceModelReferencePointAddDeformableSurfaceModelReferencePointadd_deformable_surface_model_reference_point
,
add_deformable_surface_model_sampleadd_deformable_surface_model_sampleAddDeformableSurfaceModelSampleAddDeformableSurfaceModelSampleAddDeformableSurfaceModelSampleadd_deformable_surface_model_sample
Possible Successors
refine_deformable_surface_modelrefine_deformable_surface_modelRefineDeformableSurfaceModelRefineDeformableSurfaceModelRefineDeformableSurfaceModelrefine_deformable_surface_model
,
get_deformable_surface_matching_resultget_deformable_surface_matching_resultGetDeformableSurfaceMatchingResultGetDeformableSurfaceMatchingResultGetDeformableSurfaceMatchingResultget_deformable_surface_matching_result
,
clear_deformable_surface_matching_resultclear_deformable_surface_matching_resultClearDeformableSurfaceMatchingResultClearDeformableSurfaceMatchingResultClearDeformableSurfaceMatchingResultclear_deformable_surface_matching_result
,
clear_object_model_3dclear_object_model_3dClearObjectModel3dClearObjectModel3dClearObjectModel3dclear_object_model_3d
Alternatives
refine_deformable_surface_modelrefine_deformable_surface_modelRefineDeformableSurfaceModelRefineDeformableSurfaceModelRefineDeformableSurfaceModelrefine_deformable_surface_model
See also
refine_deformable_surface_modelrefine_deformable_surface_modelRefineDeformableSurfaceModelRefineDeformableSurfaceModelRefineDeformableSurfaceModelrefine_deformable_surface_model
Module
3D Metrology