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/!\ '''''All the vectors in the sumfiles and nominals are in a body fixed frame with the origin at the center of the target body. The origin might be off a little bit, which means you may have to use [[shift]] eventually.'''''
 . /!\ '''''All the vectors in the sumfiles and nominals are in a body fixed frame with the origin at the center of the target body. The origin might be off a little bit, which means you may have to use [[shift]] eventually.'''''
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Option 0 creates .SUM and .NOM files for any new images but leaves all others
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Option 0 creates .SUM and .NOM files for any new images but leaves all others

C unchanged. Additionally, option 1 updates all .NOM files. Option 2 dies all of the 
C above and makes changes in all .SUM files. The possible changes, specified in new 
C unchanged. Additionally, option 1 updates all .NOM files. Option 2 dies all of the
C above and makes changes in all .SUM files. The possible changes, specified in new
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C The procedure first uses SPKEZ to calculate the spcaecraft - object vector SCOBJ and 
C the unit vector to the Sun in inertial space at the ephemeris time ET of an image.  
C It also determines the light time LT from the s/c to the target. It then determines 
C the transformation matrix from the camera frame (INST) to inertial space (TTVI) at 
C time ET using the SPICELIB routine PXFORM. Now all relevant quantities are available in 
C inertial space. In SPC all these quantities are used in the body-fixed frame, so we again 
C use PXFORM to translate from inertial to body-fixed (TIPM). We do this not at ET but at 
C The procedure first uses SPKEZ to calculate the spcaecraft - object vector SCOBJ and
C the unit vector to the Sun in inertial space at the ephemeris time ET of an image.
C It also determines the light time LT from the s/c to the target. It then determines
C the transformation matrix from the camera frame (INST) to inertial space (TTVI) at
C time ET using the SPICELIB routine PXFORM. Now all relevant quantities are available in
C inertial space. In SPC all these quantities are used in the body-fixed frame, so we again
C use PXFORM to translate from inertial to body-fixed (TIPM). We do this not at ET but at
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CategoryPrograms
----
CategoryThreeOhOne

make_sumfiles

Category B

Version 3.0.1

Description

In general, this program ingests images into SPC, building the sumfiles and nominals.

make_sumfiles takes in the name and some other data about the images from make_sumfiles.in, and position and pointing data from the kernels. The program then

User Warnings

  • /!\ All the vectors in the sumfiles and nominals are in a body fixed frame with the origin at the center of the target body. The origin might be off a little bit, which means you may have to use shift eventually. /!\ The ck and spk kernel names in make_sumfiles.txt must cover the time span of all the images being ingested. Otherwise, make_sumfiles will not work. /!\ This program is non-standard. It frequently requires different versions for different missions to get the data in a form usable by SPC. Although the goal is to make a single version that does it all, each mission has a different image format. /!\ If the image name is already listed in PICTLIST.TXT, make_sumfiles will not make NOMINALS or SUMFILES when you select option "0". (See below)

Input Files

Output Files


Using make_sumfiles

The following sample shows the standard inputs and the list of options for make_sumfiles:

 ~/bin/e.make_sumfiles
 Use B-Frame? (y/n)
n
 0.  Create SUMFILES & NOMINALS and ..
 1.  Update old NOMINALS and ..
 2.  Update old SUMFILES
0

Usually, the B-Frame is not selected. The author has never selected it.

Enter the appropriate option:

  • 0 Create SUMFILES & NOMINALS and .. - Completes both operations and ends.

  • 1 Update old NOMINALS and .. - Completes NOMINALS operation and ends.

  • 2 Update old SUMFILES - Issues the following prompts:

    Update UTC? (y/n)
    Update image thresholds? (y/n)
    Update camera parameters? (y/n)
    Reset geometry? (y/n)
    Reset sigmas? (y/n)
  • Update UTC - Updates time a picture was taken.
  • Update image thresholds - Changes image constraints.
  • Update camera parameters - Changes the camera focal length, K-matrix, etc.
  • Reset geometry - Resets position and pointing back to nominal.
  • Reset sigmas - Resets uncertainty back to nominal.

    (./) Do we need descriptions (default or suggested choices?) for each of these and what happens?

Additional Reference

Alternative Description

Combines the converted image file with the image number, spacecraft state, spacecraft position & velocity and pointing information along with the associated calculated errors (Sigmas).

[from MAKE_SUMFILES.f]

Option 0 creates .SUM and .NOM files for any new images but leaves all others

C     unchanged.  Additionally, option 1 updates all .NOM files.  Option 2 dies all of the
C     above and makes changes in all .SUM files.  The possible changes, specified in new
C     entries in make_sumfiles.txt, are:
C
C           Update UTC? (y/n)
C           Update image thresholds? (y/n)
C           Update camera parameters? (y/n)
C           Reset geometry? (y/n)
C           Reset sigmas? (y/n)
C
C     The procedure first uses SPKEZ to calculate the spcaecraft - object vector SCOBJ and
C     the unit vector to the Sun in inertial space at the ephemeris time ET of an image.
C     It also determines the light time LT from the s/c to the target.  It then determines
C     the transformation matrix from the camera frame (INST) to inertial space (TTVI) at
C     time ET using the SPICELIB routine PXFORM.  Now all relevant quantities are available in
C     inertial space.  In SPC all these quantities are used in the body-fixed frame, so we again
C     use PXFORM to translate from inertial to body-fixed (TIPM).  We do this not at ET but at
C     ET-LT, since this is when the light forming the image left the target body.


(Compiled by KD)

make_sumfiles-3.0A2


CategoryThreeOhOne

make_sumfiles (last edited 2018-05-05 19:07:31 by BMittan)