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The tool OriExport can convert MicMac external oriention to the de facto standard codi�cation using
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[[Image:picto-liste.png|25px]] [[Command|List of commands]]
omega-phi-kapa.
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==Description==
mm3d OriExport
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The tool OriExport can convert MicMac external orientation to the de facto standard codification using omega-phi-kappa. For now it's quite basic and all the options are not implemented. However, it should solve the majority of problem relative to exporting results in classical photogrammetric softwares.
*****************************
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* Help for Elise Arg main *
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===Syntax===
*****************************
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The global syntax for OriExport is :
202 CHAPTER 13. DATA EXCHANGE WITH OTHER TOOLS
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<pre>mm3d OriExport FullName Results NamedArgs</pre>
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 +
===Help===
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You can access to the help by typing :
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<pre>mm3d OriExport -help</pre>
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Mandatory unnamed args :
 
Mandatory unnamed args :
 
* string :: {Full Directory (Dir+Pattern)}
 
* string :: {Full Directory (Dir+Pattern)}
Ligne 12 : Ligne 17 :
 
* [Name=AddF] bool :: {Add format as first line of header, def= false}
 
* [Name=AddF] bool :: {Add format as first line of header, def= false}
 
* [Name=ModeExp] string :: {Mode export, def=WPK (Omega Phi Kapa)}
 
* [Name=ModeExp] string :: {Mode export, def=WPK (Omega Phi Kapa)}
For now it's quite basic and all the options are not implemented. However, it should solve the majority
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of problem relative to exporting resuls in classical photogrammetric softwares.
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==Example==
 
An example with Cuxha data set :
 
An example with Cuxha data set :
mm3d OriExport Ori-All-Rel/Orientation-Abbey-IMG_034.*.jpg.xml res.txt
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<pre>mm3d OriExport Ori-All-Rel/Orientation-Abbey-IMG_034.*.jpg.xml res.txt</pre>
Will generate the �le res.txt containinig :
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==Formalism==
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===Output===
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OriExport will generate the file res.txt containinig :
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<pre>
 
Abbey-IMG_0340.jpg -4.304443 11.785803 136.229854 -5.491274 2.702560 -0.004106
 
Abbey-IMG_0340.jpg -4.304443 11.785803 136.229854 -5.491274 2.702560 -0.004106
 
Abbey-IMG_0341.jpg -3.775959 11.249636 137.040260 -6.109496 2.042527 0.097497
 
Abbey-IMG_0341.jpg -3.775959 11.249636 137.040260 -6.109496 2.042527 0.097497
 
Abbey-IMG_0342.jpg -3.849398 11.231276 137.533559 -6.707432 1.351133 0.224315
 
Abbey-IMG_0342.jpg -3.849398 11.231276 137.533559 -6.707432 1.351133 0.224315
 
Abbey-IMG_0343.jpg -3.921196 11.302498 137.899618 -7.334180 0.668316 0.362218
 
Abbey-IMG_0343.jpg -3.921196 11.302498 137.899618 -7.334180 0.668316 0.362218
Matrix R gives rotation terms to compute parameters in matrix encoding with respect to Omega-Phi-
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</pre>
Kappa angles given by the tool OriExport:
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Which correspond to :
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<pre>ImageName X Y Z omega phi kappa</pre>
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NB : The image coordinates are exported in the system you have chosen (often a local euclidean frame).
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 +
===Rotation matrix===
 +
Matrix R gives rotation terms to compute parameters in matrix encoding with respect to omega-phi-kappa
 +
angles given by the tool OriExport.
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\begin{equation}
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R=
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\begin{pmatrix}
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\cos(\phi)\cos(\kappa) & \cos(\phi)\sin(\kappa) & -\sin(\phi)\\
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\cos(\omega)\sin(\kappa) + \sin(\omega)\sin(\phi)\cos(\kappa) & -\cos(\omega)\cos(\kappa) + \sin(\omega)\sin(\phi)\sin(\kappa) & \sin(\omega)\cos(\phi)\\
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\sin(\omega)\sin(\kappa)-\cos(\omega)\sin(\phi)\cos(\kappa) & -\sin(\omega)\cos(\kappa)-\cos(\omega)\sin(\phi)\sin(\kappa) & -\cos(\omega)\cos(\phi)
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\end{pmatrix}
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\end{equation}
  
For example OriExport will give in degree:
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For example OriExport will give in degree:\\
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\begin{equation}
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\omega = 5.819826\\
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\phi = 7.058795\\
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\kappa = 12.262634
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\end{equation}
  
 
The corresponding matrix encoding using R is:
 
The corresponding matrix encoding using R is:
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<pre>
 
<ParamRotation>
 
<ParamRotation>
 
<CodageMatr>
 
<CodageMatr>
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</CodageMatr>
 
</CodageMatr>
 
</ParamRotation>
 
</ParamRotation>
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</pre>

Version actuelle en date du 24 novembre 2016 à 10:50

Picto-liste.png List of commands

Description

The tool OriExport can convert MicMac external orientation to the de facto standard codification using omega-phi-kappa. For now it's quite basic and all the options are not implemented. However, it should solve the majority of problem relative to exporting results in classical photogrammetric softwares.

Syntax

The global syntax for OriExport is :

mm3d OriExport FullName Results NamedArgs

Help

You can access to the help by typing :

mm3d OriExport -help

Mandatory unnamed args :

  • string :: {Full Directory (Dir+Pattern)}
  • string :: {Results}

Named args :

  • [Name=AddF] bool :: {Add format as first line of header, def= false}
  • [Name=ModeExp] string :: {Mode export, def=WPK (Omega Phi Kapa)}

Example

An example with Cuxha data set :

mm3d OriExport Ori-All-Rel/Orientation-Abbey-IMG_034.*.jpg.xml res.txt

Formalism

Output

OriExport will generate the file res.txt containinig :

Abbey-IMG_0340.jpg -4.304443 11.785803 136.229854 -5.491274 2.702560 -0.004106
Abbey-IMG_0341.jpg -3.775959 11.249636 137.040260 -6.109496 2.042527 0.097497
Abbey-IMG_0342.jpg -3.849398 11.231276 137.533559 -6.707432 1.351133 0.224315
Abbey-IMG_0343.jpg -3.921196 11.302498 137.899618 -7.334180 0.668316 0.362218

Which correspond to :

ImageName X Y Z omega phi kappa

NB : The image coordinates are exported in the system you have chosen (often a local euclidean frame).

Rotation matrix

Matrix R gives rotation terms to compute parameters in matrix encoding with respect to omega-phi-kappa angles given by the tool OriExport.

\begin{equation} R= \begin{pmatrix} \cos(\phi)\cos(\kappa) & \cos(\phi)\sin(\kappa) & -\sin(\phi)\\ \cos(\omega)\sin(\kappa) + \sin(\omega)\sin(\phi)\cos(\kappa) & -\cos(\omega)\cos(\kappa) + \sin(\omega)\sin(\phi)\sin(\kappa) & \sin(\omega)\cos(\phi)\\ \sin(\omega)\sin(\kappa)-\cos(\omega)\sin(\phi)\cos(\kappa) & -\sin(\omega)\cos(\kappa)-\cos(\omega)\sin(\phi)\sin(\kappa) & -\cos(\omega)\cos(\phi) \end{pmatrix} \end{equation}

For example OriExport will give in degree:\\ \begin{equation} \omega = 5.819826\\ \phi = 7.058795\\ \kappa = 12.262634 \end{equation}

The corresponding matrix encoding using R is:

<ParamRotation>
<CodageMatr>
<L1>0.969777798578237427 -0.210783330505758815 0.122887790140630643</L1>
<L2>-0.199121821850641506 -0.974794184828703614 -0.100631989382226852</L2>
<L3>0.141001849092942777 0.0731210284736428379 -0.987305319416100224</L3>
</CodageMatr>
</ParamRotation>