Differences between revisions 7 and 11 (spanning 4 versions)

dynamics

Description

This program augments the nominals file by appending the nominal inertial space position differences between the current image and up to two images before and after. This information is used to constrain the solution so that the spacecraft position solution does not deviate too much from a dynamically realistic state. This program also allows for different mission phases to have different "sigmas" via DYNAMICS.TXT.

Required Files

Output Files

Updated NOMINALS file

Using dynamics

Input for the program in DYNAMICS.TXT includes values for 3 parameters and lists of nominals to which they apply. For additional information, see DYNAMICS.TXT.

The following sample is based on excerpts from a DYNAMICS.TXT file for DAWN at Vesta:

FRAME='BOD_FRAME' APPROACH
ETLM=  1800, 1.D-6
VSIG= 0.200, 0.200, 0.200
PSIG= 0.0001, 0.0001, 0.0001
 F11A0001225
 F11A0001241
 ...
 F21A0003895
 F21A0003910
 
FRAME='dxR_FRAME' SURVEY
ETLM=  1800, 1.D-6
VSIG= 0.100, 0.100, 0.040
PSIG= 0.0001, 0.0001, 0.0001
 F21A0003931
 F21A0003932
 ...
 F21A0032347
 F21A0032348
END

A typical ETLIM= record is:

ETLM=  1800, 1.D-6

ETLIM= gives a maximum time difference in seconds that limits the neighboring images to be used. This is followed by an estimate of the velocity uncertainty that goes into an uncertainty estimate included in the added records.

FRAME= has these three choices:

FRAME= ['dxR_FRAME', 'Dxr_FRAME', 'BOD_FRAME']

FRAME= specifies how to interpret the sigmas in spacecraft position found in the nominals file.

dxR_FRAME uses the radial direction (R) as prime for the third component with the second component being the cross track direction (X) and the first component, roughly in the downtrack direction completing the right-handed coordinate system. This is used in orbital operations around large bodies, where the radial component is well known from the Doppler data.
Dxr_FRAME is used during approach where the downtrack velocity is best known. The "radial" (impact parameter) direction is crossed with the downtrack to give the crosstrack direction.
BOD_FRAME simply uses the components in the body-fixed frame, generally with equal uncertainties in each direction.

The VSIG= record has three components:

VSIG= 0.100, 0.100, 0.040

VSIG= allows the user to change the position sigmas from those in the original nominals file. The record in the sample, sets the uncertainties in the three components to 100 m, 100 m and 40 m respectively. If, during another mission phase, these sigmas change, another VSIG= record would be added to affect subsequent nominals files.

The PSIG= record has three components:

PSIG= 0.0003, 0.0003, 0.0005

PSIG= allows the user to change the pointing sigmas in the nominal files. The three components refer to rotations about the three camera axes. The sample shows the approximate values expected for OSIRIS_REx with a larger twist uncertainty since there is only one star tracker.

(Compiled by TC)

-  ⇤ ← Revision 7 as of 2016-01-22 11:58:45 → 
  Size: 3071
  Editor: tcampb
  Comment:
+   ← Revision 11 as of 2016-01-29 15:41:51 → ⇥
  Size: 3247
  Editor: BMittan
  Comment:
-Deletions are marked like this.
+Additions are marked like this.
 Line 2:
-===== (Compiled by TC) =====
-Line 5:
+Line 4:
-DYNAMIS augments the nominals file by appending the nominal inertial
space position differences dW=W1-W0 between the current image and up
+This program augments the nominals file by appending the nominal inertial
space position differences between the current image and up
-Line 8:
+Line 7:
-constrain the solution in the subroutine IPL2SOBJPTG so that the
s/c position solution does not deviate too much from a dynamically
realistic state.  An entry ETLIM= in the input DYNAMIS.TXT gives
a maximum time difference in seconds that limits the neighboring
images to be used, and an estimate of the velocity uncertainty that
goes into an uncertainty estimate also is included in the added records.
A typical record is:
+constrain the solution so that the spacecraft position solution does not deviate too much from a dynamically
realistic state. This program also allows for different mission phases to have different "sigmas" via [[DYNAMICS.TXT]].
-Line 16:
+Line 10:
-ETLM=  1800, 1.D-6
+=== Required Files ===
 * [[DYNAMICS.TXT]]
 * [[NOMINALS]]/
 * [[SUMFILES]]/
-Line 18:
+Line 15:
-A record FRAME= tells IPL2SOBJPTG how to interpret the sigmas in
spacecrafe position found in the nominals file.  The choices are
+=== Output Files ===
 * Updated NOMINALS file
-Line 21:
+Line 18:
-FRAME= ['dxR_FRAME', 'Dxr_FRAME', 'BOD_FRAME']
+-----
-Line 23:
+Line 20:
-The first one uses tha radial direction (R) as prime for the third
component with the second component being the cross track direction
(X) and the first component, roughly in the downtrack direction
completing the right-handed coordinate system.  This is used in
orbital operations around large bodies, where the radial component is
well known from from the Doppler data.  The second choice is used
during approach where the downtrack velocity is best known.  The
"radial" (impact parameter) direction is crossed with the downtrack
to give the crosstrack direction.  The third option simply uses the
components in the body-fixed frame, generally with equal
uncertainties in each direction.
+== Using dynamics ==
-Line 35:
+Line 22:
-A record VSIG= allows the user to change the position sigmas from
those in the original nominals file.  The record:
+Input for the program in DYNAMICS.TXT includes values for 3 parameters and lists of nominals to which they apply. For additional information, see [[DYNAMICS.TXT]].
-Line 38:
+Line 24:
-VSIG= 0.100, 0.100, 0.040
+The following sample is based on excerpts from a DYNAMICS.TXT file for
DAWN at Vesta:
-Line 40:
+Line 27:
-sets the uncertainties in the three components to 100 m, 100 m and
40 m respectively.  If, during another mission phase, these sigmas
change, another such record would be added to affect subsequent
nominals files.

A record PSIG= allows the user to change the pointing sigmas in the
nominal files.  The three components refer to rotations about the
three camera axes.  For OSIRIS_REx we expect something like:

PSIG= 0.0003, 0.0003, 0.0005

with a larger twist uncertainty since there is only one star tracker.

The DYNAMIS.TXT file looks just like the PITLIST.TXT file in that
there is a space in the first column.  Excerpts from such a file for
DAWN at Vesta are:

FRAME='BOD_FRAME' APPROAH
+{{{
FRAME='BOD_FRAME' APPROACH
-Line 66:
+Line 37:
-Line 76:
+Line 48:
+}}}
-Line 77:
+Line 50:
-There were a number of parameter changes as the mission progressed
from Approach to Survey to HAMO to LAMO to HAMO2 to Departure, with
transitions between phases requiring parameters of their own.
-Line 81:
+Line 51:
-== Inputs ==
 * [[DYNAMICS.TXT]]
 * NOMINALSMS
+A typical ETLIM= record is:
{{{
ETLM=  1800, 1.D-6
}}}
-Line 85:
+Line 56:
-== Outputs ==
 * Updated NOMINALSD
+ETLIM= gives
a maximum time difference in seconds that limits the neighboring
images to be used. This is followed by an estimate of the velocity uncertainty that
goes into an uncertainty estimate included in the added records.

FRAME= has these three choices:

{{{
FRAME= ['dxR_FRAME', 'Dxr_FRAME', 'BOD_FRAME']
}}}

FRAME= specifies how to interpret the sigmas in
spacecraft position found in the nominals file.

 * '''dxR_FRAME''' uses the radial direction (R) as prime for the third component with the second component being the cross track direction (X) and the first component, roughly in the downtrack direction completing the right-handed coordinate system.  This is used in orbital operations around large bodies, where the radial component is well known from the Doppler data.

 * '''Dxr_FRAME''' is used during approach where the downtrack velocity is best known.  The "radial" (impact parameter) direction is crossed with the downtrack to give the crosstrack direction.

 * '''BOD_FRAME''' simply uses the components in the body-fixed frame, generally with equal uncertainties in each direction.

The VSIG= record has three components:
{{{
VSIG= 0.100, 0.100, 0.040
}}}

VSIG= allows the user to change the position sigmas from
those in the original nominals file. The record in the sample, sets the uncertainties in the three components to 100 m, 100 m and
40 m respectively.  If, during another mission phase, these sigmas
change, another VSIG= record would be added to affect subsequent
nominals files.

The PSIG= record has three components:
{{{
PSIG= 0.0003, 0.0003, 0.0005
}}}
PSIG= allows the user to change the pointing sigmas in the
nominal files.  The three components refer to rotations about the
three camera axes.  The sample shows the approximate values expected for OSIRIS_REx with a larger twist uncertainty since there is only one star tracker.

-----
''(Compiled by TC) ''