Differences between revisions 23 and 26 (spanning 3 versions)

geometry

BACK UP YOUR WORK BEFORE RUNNING GEOMETRY!

Description

This program makes a surface by solving for the spacecraft position, spacecraft pointing, and landmark locations. This procedure iterates the solutions for camera pointing and landmark vectors sequentially.

Required Files

LMKFILES/
IMAGEFILES/
PICTLIST.TXT
LMRKLIST.TXT
LMRKLIST1.TXT
MAPFILES/
INIT_LITHOS.TXT
SHAPE.TXT - This is the shape model that is stored in directory SHAPEFILES/.
SUMFILES/

Output Files

User Warning

$/!\$ Always back up your work before using geometry.

Using geometry

The inputs for geometry are:

input operation list - Use these values:
- 1: landmark vectors.
- 2: camera pointing, scobj
- 0: end.
enter number of iterations - Input desired number.
use limbs for pointing? (y/n) - Choose whether to use limbs in determining camera pointing.
continue? (y/n) - Choose whether to do it all over again.

Here are two samples that show geometry inputs:

 GEOMETRY
 120<- do 1 followed by 2
 30 <- do them 30 times
 y  <- use limbs for pointing
 n  <- stop when done

 GEOMETRY
 20 <- do 2 only
 10 <- do it 10 times
 n  <- don't use limbs for pointing
 n  <- stop when done

The default is to do these operations for all landmarks in LMRKLIST.TXT and all images in PICTLIST.TXT.

If INIT_LITHOS.TXT contains a record

GEOPI='filename1'

or

GEOMAP='filename2'

then the files used are reduced. "filename1" is used instead of PICTLIST.TXT and "filename2" is used instead of LMRKLIST.TXT.

PowerPoint Notes

Geometry Estimation Terms

Spacecraft State - Position and orientation of spacecraft affects size and location of the body in an image. Errors are reflected by offsets of extracted image data from maplets for all maplets in the image.
Control Point Location - An error in the body-fixed control point location is reflected by offsets of extracted image data for all images containing the maplets.
Rotation - An error in the transformation from inertial to body fixed frames is reflected in time-dependent offsets in extracted image data for all maplets in all images.
Differential Stereo - Errors in the maplet heights relative to the center are reflected by differential shifts of features within the extracted image data in addition to displacements from the maplets themselves.

More Detailed Description of Geometry

Global solution for camera pointing and body-fixed maplet location.
Iterative process:
- Weighted least-squares solution of landmarks (control points) based on:
  - Nominal camera pointing and position
  - Relative landmark-to-landmark location
- Weighted least-squares solution of camera position and pointing based on landmark location

(Compiled by TC)

CategoryPrograms

-  ⇤ ← Revision 23 as of 2016-01-27 10:14:02 → 
  Size: 3203
  Editor: tcampb
  Comment:
+   ← Revision 26 as of 2016-02-07 13:41:29 → ⇥
  Size: 3335
  Editor: BMittan
  Comment:
-Deletions are marked like this.
+Additions are marked like this.
 Line 2:
-===== (Compiled by TC) =====
-Line 4:
+Line 3:
-<<BR>>
= BACK UP YOUR WORK BEFORE RUNNING GEOMETRY =
<<BR>>
+ {X} '''''BACK UP YOUR WORK BEFORE RUNNING GEOMETRY!'''''
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+Line 6:
-Makes a surface by solving for the spacecraft position, spacecraft pointing, and landmark locations. This procedure iterates the solutions for camera pointing
and landmark vectors sequentially.  The inputs are a list of
operations where 1=landmark vectors, 2=camera pointing, 0=END, the number of
iterations desired, a choice of whether to use limbs in determining
camera pointing (y/n), and a option to do it all over again (y/n).
For example,
+This program makes a surface by solving for the spacecraft position, spacecraft pointing, and landmark locations. This procedure iterates the solutions for camera pointing and landmark vectors sequentially.  

== Required Files ==
 * [[LMKFILES]]/
 * [[IMAGEFILES]]/
 * [[PICTLIST.TXT]]
 * [[LMRKLIST.TXT]]
 * [[LMRKLIST1.TXT]]
 * [[MAPFILES]]/
 * [[INIT_LITHOS.TXT]]    
 * [[SHAPE.TXT]] - This is the shape model that is stored in directory [[SHAPEFILES]]/.
 * [[SUMFILES]]/

== Output Files ==

 * [[SUMFILES]]/
 * [[LMKFILES]]/
 * [[MAPFILES]]/


== User Warning ==

 ''''' /!\ Always back up your work before using geometry.'''''

== Using geometry ==

The inputs for '''geometry''' are:

 '''input operation list''' - Use these values:
  . 1: landmark vectors. 
  . 2: camera pointing, scobj  
  . 0: end.  

 '''enter number of iterations''' - Input desired number.

 '''use limbs for pointing? (y/n)''' - Choose whether to use limbs in determining camera pointing.

 '''continue? (y/n)''' - Choose whether to do it all over again.

Here are two samples that show '''geometry''' inputs:
-Line 31:
+Line 62:
-[[LMRKLIST.TXT]] and all images in [[PICTLIST.TXT]].  If [[INIT_LITHOS.TXT]]
+[[LMRKLIST.TXT]] and all images in [[PICTLIST.TXT]].  

If [[INIT_LITHOS.TXT]]
-Line 42:
+Line 75:
-then the files used are reduced - filename1 instead of [[PICTLIST.TXT]] and
filename2 instead of [[LMRKLIST.TXT]].

== Requires ==
 * [[LMKFILES]]/
 * [[IMAGEFILES]]/
 * [[PICTLIST.TXT]]
 * [[LMRKLIST.TXT]]
 * [[LMRKLIST1.TXT]]
 * [[MAPFILES]]/
 * [[INIT_LITHOS.TXT]]    
 * [[SHAPE.TXT]] - This is the shape model that is stored in directory [[SHAPEFILES]]/.
 * [[SUMFILES]]/

== Input stdin ==

  . 1: landmark vectors. 
  . 2: camera pointing, scobj  
  . 0: end.  

 input operation list
{{{ 
   120
}}}

 enter number of iterations
{{{ 
   3
}}}

 use limbs for pointing? (y/n)
{{{ 
   y
}}}

 continue? (y/n)
{{{ 
   n
}}}

== Output ==

 * [[SUMFILES]]/
 * [[LMKFILES]]/
 * [[MAPFILES]]/
+then the files used are reduced. "filename1" is used instead of [[PICTLIST.TXT]] and "filename2" is used instead of [[LMRKLIST.TXT]].
-Line 92:
+Line 81:
- * Spacecraft State -  Position and orientation of spacecraft affects size and location of the body in an image. Errors are reflected by offsets of extracted image data from maplets for all maplets in the image.
 * Control Point Location -  An error in the body-fixed control point location is reflected by offsets of extracted image data for all images containing the maplets.
 * Rotation - An error in the transformation from inertial to body fixed frames is reflected in time-dependent offsets in extracted image data for all maplets in all images.
 * Differential Stereo - Errors in the maplet heights relative to the center are reflected by differential shifts of features within the extracted image data in addition to displacements from the maplets themselves.
+ * '''Spacecraft State''' -  Position and orientation of spacecraft affects size and location of the body in an image. Errors are reflected by offsets of extracted image data from maplets for all maplets in the image.
 * '''Control Point Location''' -  An error in the body-fixed control point location is reflected by offsets of extracted image data for all images containing the maplets.
 * '''Rotation''' - An error in the transformation from inertial to body fixed frames is reflected in time-dependent offsets in extracted image data for all maplets in all images.
 * '''Differential Stereo''' - Errors in the maplet heights relative to the center are reflected by differential shifts of features within the extracted image data in addition to displacements from the maplets themselves.
-Line 99:
+Line 89:
-=== More in Depth Description of Geometry ===
+=== More Detailed Description of Geometry ===
-Line 109:
+Line 99:
+----------

''(Compiled by TC)''

CategoryPrograms