| /dports/math/vtk6/VTK-6.2.0/Imaging/Core/Testing/Tcl/ |
| H A D | TestAnisotropicDiffusion3D.tcl | 15 vtkImageAnisotropicDiffusion3D diffusion
16 diffusion SetInputConnection [reader GetOutputPort]
17 diffusion SetDiffusionFactor 1.0
18 diffusion SetDiffusionThreshold 100.0
19 diffusion SetNumberOfIterations 5
20 [diffusion GetExecutive] SetReleaseDataFlag 0 0
25 viewer SetInputConnection [diffusion GetOutputPort]
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| H A D | TestAnisotropicDiffusion2D.tcl | 10 vtkImageAnisotropicDiffusion2D diffusion
11 diffusion SetInputConnection [reader GetOutputPort]
12 diffusion SetDiffusionFactor 1.0
13 diffusion SetDiffusionThreshold 200.0
14 diffusion SetNumberOfIterations 5
19 viewer SetInputConnection [diffusion GetOutputPort]
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| /dports/math/vtk9/VTK-9.1.0/Imaging/Core/Testing/Python/ |
| H A D | TestAnisotropicDiffusion3D.py | 14 diffusion = vtk.vtkImageAnisotropicDiffusion3D() variable
15 diffusion.SetInputConnection(reader.GetOutputPort())
16 diffusion.SetDiffusionFactor(1.0)
17 diffusion.SetDiffusionThreshold(100.0)
18 diffusion.SetNumberOfIterations(5)
19 diffusion.GetExecutive().SetReleaseDataFlag(0,0)
22 viewer.SetInputConnection(diffusion.GetOutputPort())
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| H A D | TestAnisotropicDiffusion2D.py | 9 diffusion = vtk.vtkImageAnisotropicDiffusion2D() variable
10 diffusion.SetInputConnection(reader.GetOutputPort())
11 diffusion.SetDiffusionFactor(1.0)
12 diffusion.SetDiffusionThreshold(200.0)
13 diffusion.SetNumberOfIterations(5)
17 viewer.SetInputConnection(diffusion.GetOutputPort())
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| /dports/math/vtk8/VTK-8.2.0/Imaging/Core/Testing/Python/ |
| H A D | TestAnisotropicDiffusion3D.py | 14 diffusion = vtk.vtkImageAnisotropicDiffusion3D() variable
15 diffusion.SetInputConnection(reader.GetOutputPort())
16 diffusion.SetDiffusionFactor(1.0)
17 diffusion.SetDiffusionThreshold(100.0)
18 diffusion.SetNumberOfIterations(5)
19 diffusion.GetExecutive().SetReleaseDataFlag(0,0)
22 viewer.SetInputConnection(diffusion.GetOutputPort())
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| H A D | TestAnisotropicDiffusion2D.py | 9 diffusion = vtk.vtkImageAnisotropicDiffusion2D() variable
10 diffusion.SetInputConnection(reader.GetOutputPort())
11 diffusion.SetDiffusionFactor(1.0)
12 diffusion.SetDiffusionThreshold(200.0)
13 diffusion.SetNumberOfIterations(5)
17 viewer.SetInputConnection(diffusion.GetOutputPort())
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| /dports/math/vtk6/VTK-6.2.0/Imaging/Core/Testing/Python/ |
| H A D | TestAnisotropicDiffusion3D.py | 15 diffusion = vtk.vtkImageAnisotropicDiffusion3D() variable
16 diffusion.SetInputConnection(reader.GetOutputPort())
17 diffusion.SetDiffusionFactor(1.0)
18 diffusion.SetDiffusionThreshold(100.0)
19 diffusion.SetNumberOfIterations(5)
20 diffusion.GetExecutive().SetReleaseDataFlag(0,0)
23 viewer.SetInputConnection(diffusion.GetOutputPort())
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| H A D | TestAnisotropicDiffusion2D.py | 10 diffusion = vtk.vtkImageAnisotropicDiffusion2D() variable
11 diffusion.SetInputConnection(reader.GetOutputPort())
12 diffusion.SetDiffusionFactor(1.0)
13 diffusion.SetDiffusionThreshold(200.0)
14 diffusion.SetNumberOfIterations(5)
18 viewer.SetInputConnection(diffusion.GetOutputPort())
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| /dports/audio/lsp-plugins-lv2/lsp-plugins-1.1.31/res/presets/simulation/room_builder/ |
| H A D | Buildings.preset | 9 /scene/object/11/material/diffusion/link = f32:1.000000
13 /scene/object/11/material/diffusion/inner = f32:1.000000
17 /scene/object/11/material/diffusion/outer = f32:1.000000
33 /scene/object/10/material/diffusion/link = f32:1.000000
37 /scene/object/10/material/diffusion/inner = f32:1.000000
41 /scene/object/10/material/diffusion/outer = f32:1.000000
57 /scene/object/9/material/diffusion/link = f32:1.000000
61 /scene/object/9/material/diffusion/inner = f32:1.000000
65 /scene/object/9/material/diffusion/outer = f32:1.000000
81 /scene/object/8/material/diffusion/link = f32:1.000000
[all …]
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| H A D | Church.preset | 9 /scene/object/5/material/diffusion/link = f32:1.000000
13 /scene/object/5/material/diffusion/inner = f32:1.000000
17 /scene/object/5/material/diffusion/outer = f32:1.000000
33 /scene/object/4/material/diffusion/link = f32:1.000000
37 /scene/object/4/material/diffusion/inner = f32:1.000000
41 /scene/object/4/material/diffusion/outer = f32:1.000000
57 /scene/object/3/material/diffusion/link = f32:1.000000
61 /scene/object/3/material/diffusion/inner = f32:1.000000
65 /scene/object/3/material/diffusion/outer = f32:1.000000
81 /scene/object/2/material/diffusion/link = f32:1.000000
[all …]
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| H A D | Swimming Pool.preset | 9 /scene/object/5/material/diffusion/link = f32:1.000000
13 /scene/object/5/material/diffusion/inner = f32:1.000000
17 /scene/object/5/material/diffusion/outer = f32:1.000000
33 /scene/object/4/material/diffusion/link = f32:1.000000
37 /scene/object/4/material/diffusion/inner = f32:1.000000
41 /scene/object/4/material/diffusion/outer = f32:1.000000
57 /scene/object/3/material/diffusion/link = f32:1.000000
61 /scene/object/3/material/diffusion/inner = f32:1.000000
65 /scene/object/3/material/diffusion/outer = f32:1.000000
81 /scene/object/2/material/diffusion/link = f32:1.000000
[all …]
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| H A D | Bathroom.preset | 9 /scene/object/4/material/diffusion/link = f32:1.000000
13 /scene/object/4/material/diffusion/inner = f32:1.000000
17 /scene/object/4/material/diffusion/outer = f32:1.000000
33 /scene/object/3/material/diffusion/link = f32:1.000000
37 /scene/object/3/material/diffusion/inner = f32:1.000000
41 /scene/object/3/material/diffusion/outer = f32:1.000000
67 /scene/object/2/material/diffusion/outer = f32:1.000000
71 /scene/object/2/material/diffusion/inner = f32:1.000000
75 /scene/object/2/material/diffusion/link = f32:1.000000
99 /scene/object/1/material/diffusion/link = f32:1.000000
[all …]
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| H A D | Office Space.preset | 9 /scene/object/4/material/diffusion/link = f32:1.000000
13 /scene/object/4/material/diffusion/inner = f32:1.000000
17 /scene/object/4/material/diffusion/outer = f32:1.000000
33 /scene/object/3/material/diffusion/link = f32:1.000000
37 /scene/object/3/material/diffusion/inner = f32:1.000000
41 /scene/object/3/material/diffusion/outer = f32:1.000000
57 /scene/object/2/material/diffusion/link = f32:1.000000
61 /scene/object/2/material/diffusion/inner = f32:1.000000
65 /scene/object/2/material/diffusion/outer = f32:1.000000
81 /scene/object/1/material/diffusion/link = f32:1.000000
[all …]
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| /dports/science/InsightToolkit/ITK-5.0.1/Wrapping/Generators/Tcl/Tests/ |
| H A D | WatershedSegmentation1.tcl | 27 set diffusion [ itkGradientAnisotropicDiffusionImageFilterF2F2_New ]
29 $diffusion SetInput [ $reader GetOutput ]
31 $diffusion SetTimeStep 0.0625
32 $diffusion SetConductanceParameter 9.0
33 $diffusion SetNumberOfIterations 5
36 $gradient SetInput [ $diffusion GetOutput ]
|
| /dports/science/InsightToolkit/ITK-5.0.1/Examples/Segmentation/ |
| H A D | WatershedSegmentation1.py | 25 diffusion = itk.itkGradientAnisotropicDiffusionImageFilterF2F2_New() variable
26 diffusion.SetInput(reader.GetOutput())
27 diffusion.SetTimeStep(0.0625)
28 diffusion.SetConductanceParameter(9.0)
29 diffusion.SetNumberOfIterations( 5 );
32 gradient.SetInput(diffusion.GetOutput())
|
| /dports/science/InsightToolkit/ITK-5.0.1/Wrapping/Generators/Java/Tests/notYetUsable/ |
| H A D | WatershedSegmentation1.java | 35 itkGradientAnisotropicDiffusionImageFilterF2F2_Pointer diffusion = in main() local
38 diffusion.SetInput( reader.GetOutput() ); in main()
39 diffusion.SetTimeStep( 0.0625 ); in main()
40 diffusion.SetConductanceParameter( 9.0 ); in main()
41 diffusion.SetNumberOfIterations( 5 ); in main()
46 gradient.SetInput(diffusion.GetOutput()); in main()
|
| /dports/math/freefem++/FreeFem-sources-4.6/examples/hpddm/ |
| H A D | Makefile.am | 30 TESTS_HPDDM = diffusion-2d.edp \
31 diffusion-mg-2d.edp \
32 diffusion-substructuring-2d.edp \
34 diffusion-3d.edp \
35 diffusion-simple-3d.edp \
36 diffusion-periodic-2d.edp \
55 diffusion-2d-PETSc.edp \
56 diffusion-3d-PETSc.edp \
57 diffusion-periodic-2d-PETSc.edp \
58 diffusion-periodic-balanced-2d-PETSc.edp \
[all …]
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| /dports/science/cantera/cantera-2.5.1-611-gc4d6ecc15/samples/matlab/ |
| H A D | tut6.m | 7 % - binary diffusion coefficients
8 % - mixture-averaged diffusion coefficients
9 % - multicomponent diffusion coefficients
10 % - thermal diffusion coefficients
43 % Binary diffusion coefficients
47 % Mixture-averaged diffusion coefficients. For convenience, the
48 % multicomponent model implements mixture-averaged diffusion
53 % Multicomponent diffusion coefficients. These are only implemented
57 % Thermal diffusion coefficients. These are only implemented with the
|
| /dports/science/InsightToolkit/ITK-5.0.1/Modules/Segmentation/LevelSets/include/ |
| H A D | itkThresholdSegmentationLevelSetFunction.hxx | 34 …diffusion = GradientAnisotropicDiffusionImageFilter< TFeatureImageType, TFeatureImageType >::New(… in CalculateSpeedImage() local
46 diffusion->SetInput( this->GetFeatureImage() ); in CalculateSpeedImage()
47 diffusion->SetConductanceParameter(m_SmoothingConductance); in CalculateSpeedImage()
48 diffusion->SetTimeStep(m_SmoothingTimeStep); in CalculateSpeedImage()
49 diffusion->SetNumberOfIterations(m_SmoothingIterations); in CalculateSpeedImage()
51 laplacian->SetInput( diffusion->GetOutput() ); in CalculateSpeedImage()
|
| /dports/finance/quantlib/QuantLib-1.20/ql/processes/ |
| H A D | eulerdiscretization.cpp | 36 Disposable<Matrix> EulerDiscretization::diffusion( in diffusion() function in QuantLib::EulerDiscretization
40 return process.diffusion(t0, x0) * std::sqrt(dt); in diffusion()
43 Real EulerDiscretization::diffusion(const StochasticProcess1D& process, in diffusion() function in QuantLib::EulerDiscretization
45 return process.diffusion(t0, x0) * std::sqrt(dt); in diffusion()
52 Matrix sigma = process.diffusion(t0, x0); in covariance()
59 Real sigma = process.diffusion(t0, x0); in variance()
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| H A D | endeulerdiscretization.cpp | 36 Disposable<Matrix> EndEulerDiscretization::diffusion( in diffusion() function in QuantLib::EndEulerDiscretization
40 return process.diffusion(t0+dt, x0) * std::sqrt(dt); in diffusion()
43 Real EndEulerDiscretization::diffusion(const StochasticProcess1D& process, in diffusion() function in QuantLib::EndEulerDiscretization
45 return process.diffusion(t0+dt, x0) * std::sqrt(dt); in diffusion()
52 Matrix sigma = process.diffusion(t0+dt, x0); in covariance()
59 Real sigma = process.diffusion(t0+dt, x0); in variance()
|
| /dports/science/py-dipy/dipy-1.4.1/doc/interfaces/ |
| H A D | reconstruction_flow.rst | 23 diffusion signal with a fiber response function, provided that we are able to
97 The diffusion tensor model is a model that describes the diffusion within a
104 The diffusion tensor models the diffusion signal as:
112 duration of the diffusion-weighting gradient. $S(\mathbf{g}, b)$ is the
113 measured diffusion-weighted signal and $S_0$ is the signal conducted in a
156 The diffusion kurtosis model is an expansion of the diffusion tensor model. In
157 addition to the diffusion tensor (DT), the diffusion kurtosis model quantifies
161 Measurements of non-Gaussian diffusion from the diffusion kurtosis model are of
168 and diffusion tortuosity [Fierem2011]_.
236 pseudo diffusion term $\mathbf{D^*}$ is introduced that describes the
[all …]
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| /dports/math/octave-forge-financial/financial-0.5.3/inst/@diffusion/ |
| H A D | subsasgn.m | 18 if (! isa (DiffusionRate, "diffusion"))
19 error ("object must be of the diffusion class but '%s' was used", class (DiffusionRate));
21 error ("incorrect syntax to reference diffusion object. Use obj.prop to access properties.");
38 DiffusionRate = diffusion (value, Sigma);
40 DiffusionRate = diffusion (Alpha, value);
42 error ("diffusion: 'Rate' is private");
44 error ("diffusion: unknown property '%s'", idx.subs);
|
| /dports/science/InsightToolkit/ITK-5.0.1/Modules/Remote/ |
| H A D | AnisotropicDiffusionLBR.remote.cmake | 5 in the sense of Weickert, meaning that diffusion tensors are anisotropic and
7 the non-linear diffusion filter of Perona and Malik, which only involves
8 scalar diffusion coefficients, in other words isotropic diffusion tensors.
10 In this module, an anisotropic non-linear diffusion technique based on a recent
11 adaptive scheme making the diffusion stable and requiring limited numerical resources
|
| /dports/science/InsightToolkit/ITK-5.0.1/Modules/Segmentation/Watersheds/wrapping/test/ |
| H A D | WatershedSegmentation1Test.py | 29 diffusion = itk.GradientAnisotropicDiffusionImageFilter.New(Input=reader.GetOutput()) variable
30 diffusion.SetTimeStep(0.0625)
31 diffusion.SetConductanceParameter(9.0)
32 diffusion.SetNumberOfIterations(5)
34 gradient = itk.GradientMagnitudeImageFilter.New(Input=diffusion.GetOutput())
|