IPSDK  4_1_0_2
IPSDK : Image Processing Software Development Kit
Classes
Inertia3dNormalOrientationPhi
Shape Analysis and Measurement » Geometry » Inertia

Measure allowing to compute the 3d shape normal orientation (phi component of the (phi, theta) representation) from the second order moment matrix computed from the Inertia3d measurement. More...

Classes

class  ipsdk::imaproc::shape::analysis::Inertia3dNormalOrientationPhiMsr
 Measurement object for measure Inertia3dNormalOrientationPhi. More...
 
class  ipsdk::imaproc::shape::analysis::Inertia3dNormalOrientationPhiMsrInfo
 Information object for measure Inertia3dNormalOrientationPhi. More...
 

Detailed Description

Measure allowing to compute the 3d shape normal orientation (phi component of the (phi, theta) representation) from the second order moment matrix computed from the Inertia3d measurement.

This measure computes the normal orientation value in the x-y plane of the inertia matrix calculated for each 3D shape, without taking the voxels intensities into account, and returns the phi component, expressed in radians.

To avoid redundancies in the orienation representation, the measure ensure that for a couple of angles ( $\phi$, $\theta$), $\theta \in [0, \pi/2]$. $\phi$ is hence adjusted by rotating to $\pi$ if the initial value of $\theta > \pi/2$.

This orientation is calculated from the eigen vector related to the minimum eignen value.

Typically, this measure is usefull to determinate the orientation of a flat disk, for which the orientation inside the disk plane is not relevant.

Here is an example of phi orientation measurement :

Inertia3dNormalOrientationPhiMsr.png
Author
R. Abbal
Date
2021/05/03
Copyright
2021 ReactivIP, all right reserved.

Measure allowing to compute the 3d shape normal orientation (phi component of the (phi, theta) representation) from the second order moment matrix computed from the Inertia3d measurement

Measure synthesis :

Measure Type Measure Unit Type Parameter Type Result Type Shape Requirements
Generic.png
Generic
angle.png
Angle
none.png
None
Value.png
Value (ipsdk::ipReal64)
RowIntersections.png
Row Intersections
See Shape measurement for additional information on these pictograms

Measure Type :

This is a generic measure

This measure can only be used in 3d case

Measure Unit Type:

Measure Inertia3dNormalOrientationPhi is associated to an angular (radians) measurement unit [ipsdk::shape::analysis::eMsrUnitFormat::eMUF_RadianUnit]

Measure Parameter Type :

Measure Inertia3dNormalOrientationPhi has no parameters

Measure Result Type :

Measure Inertia3dNormalOrientationPhi is associated to ipsdk::shape::analysis::ValueMeasureResult<ipsdk::ipReal64> results

Measure Shape Requirements :

Measure Inertia3dNormalOrientationPhi requires row intersections from shape data

Measure Dependencies :

Measure Inertia3dNormalOrientationPhi depends on following measures :

Measure Mode Measure Name Measure Type Measure Parameters
eMVP_3d Orientation InertiaNormalOrientation3d
Note
See Shape Analysis 3d for more information on general shape 3d analysis and measurement usage.

Example of Python code :

Generic example in 3d case :

import PyIPSDK
import PyIPSDK.IPSDKIPLShapeAnalysis as shapeanalysis
# Create the infoset
inMeasureInfoSet3d = PyIPSDK.createMeasureInfoSet3d()
PyIPSDK.createMeasureInfo(inMeasureInfoSet3d, "Inertia3dNormalOrientationPhiMsr")
#Perform the analysis
outMeasureSet = shapeanalysis.labelAnalysis3d(inGreyImg, inLabelImg, inMeasureInfoSet3d)
# save results to csv format
PyIPSDK.saveCsvMeasureFile(os.path.join(tmpPath, "shape_analysis_results.csv"), outMeasureSet)
# retrieve measure results
outMsr = outMeasureSet.getMeasure("Inertia3dNormalOrientationPhiMsr")
# retrieve measure values
outMsrValues = outMsr.getMeasureResult().getColl(0)
print("First label measurement equal " + str(outMsrValues[1]))

Example of C++ code :

Example informations

Associated library

IPSDKIPLShapeAnalysis

Code Example

// define a measure info set
MeasureInfoSetPtr pMeasureInfoSet = MeasureInfoSet::create3dInstance();
createMeasureInfo(pMeasureInfoSet, "Inertia3dNormalOrientationPhiMsr");
// compute measure
MeasureSetPtr pOutMeasureSet = labelAnalysis3d(pLabelImg, pLabelImg, pMeasureInfoSet);
// retrieve associated results
const MeasureConstPtr& pOutMsr = pOutMeasureSet->getMeasure("Inertia3dNormalOrientationPhiMsr");
const ipsdk::shape::analysis::ValueMeasureResult<ipsdk::ipReal64>& outResults = static_cast<const ipsdk::shape::analysis::ValueMeasureResult<ipsdk::ipReal64>&>(pOutMsr->getMeasureResult());
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