Difference: AstrometryThermoelasticDriftCorrection (1 vs. 8)

Revision 82017-02-06 - PilarEsquej

Line: 1 to 1
 
META TOPICPARENT name="WebHome"
Changed:
<
<

Astrometry correction due to a thermoelastic drift

>
>

Astrometry drift correction for observations affected by thermoelastic effects

 

Rationale

Observations performed at the end of the Solar Aspect Angle (SAA) range (the so-called 'warm' attitude range, SAA in the 110° to 119°.2 interval) could present a degradation of the pointing performance due to thermoelastic effects. These would include a larger APE and a pointing drift. As a result of the definition of the spacecraft reference axes, these pointing drifts are expected to be mainly detected in the spacecraft Z-axis (see Sánchez-Portal et al. 2014). One of the problems is that the thermoelastic-induced offsets do not respond immediately to the variations of SAA, but present some delay due to the heating-cooling times of the service module (SVM) and structures connecting it to the payload module (PLM).

Changed:
<
<
Therefore, we should expect that the pointing offsets do not correlate directly with the SAA but with the temperature of the SVM. In order to test this hypothesis, we have performed a study on this effect by calculating the Z-axis offset for a set of pointing calibration observations (we chose these observations since the targets are true point sources with very accurate astrometry) as a function of the temperature in a passive component of SVM. Since the backup star tracker (STR2) was switched-off along the whole mission, but few operational days, the temperature sensors mounted in its structure (baseplate and baffles) measure a mostly passive element. In fact, the time variation of temperature recorded by these sensors respond to the variations of SAA, with clear and uniform delay ramps that were precisely what we wanted to find. When plotting the pointing offsets vs. temperature, we found that while for STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
>
>
Therefore, we should expect that the pointing offsets do not correlate directly with the SAA but with the temperature of the SVM. In order to test this hypothesis, we have performed a study on this effect by calculating the Z-axis offset for a set of pointing calibration observations (we chose these observations since the targets are true point sources with very accurate astrometry) as a function of the temperature in a passive component of SVM. Since the backup star tracker (STR2) was switched-off along the whole mission, but few operational days, the temperature sensors mounted in its structure (baseplate and baffles) measure a mostly passive element. In fact, the time variation of temperature recorded by these sensors respond to the variations of SAA, with clear and uniform delay ramps that were precisely what we wanted to find. When plotting the pointing offsets vs. temperature, we found that while for STR2 temperatures below -15° the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
 
Changed:
<
<
We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic effect. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C). We have applied the script to a set of calibration observations as a test, and checked that the general pointing is improved. The left panel on plot below shows the linear correlation between the STR2 temperature and the Z-axis used to correct this effect. The right panel presents the Z offset distribution before (green) and after (purple) applying the correction, the latter showing an improvement of the APE+ with respect to the original.
>
>
We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic effect. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C). We have applied the script to a set of calibration observations as a test, and checked that the general pointing is improved. The left panel on plot below shows the linear correlation between the STR2 temperature and the Z-axis used to correct this effect. The right panel presents the Z offset distribution before (green) and after (purple) applying the correction, the latter showing an improvement of the Absolute Pointing Error (APE+) with respect to the original.
  STR2_vs_offset.jpg warmbetaAPE.png

Script Usage

Revision 72017-01-22 - MiguelSanchez

Line: 1 to 1
 
META TOPICPARENT name="WebHome"

Astrometry correction due to a thermoelastic drift

Rationale

Changed:
<
<
Observations performed at the end of the Solar Aspect Angle (SAA) range (the so-called 'warm' attitude range, SAA in the 110° to 119°.2 interval) could present a degradation of the pointing performance due to thermoelastic effects. These would include a larger APE and a pointing drift.
>
>
Observations performed at the end of the Solar Aspect Angle (SAA) range (the so-called 'warm' attitude range, SAA in the 110° to 119°.2 interval) could present a degradation of the pointing performance due to thermoelastic effects. These would include a larger APE and a pointing drift. As a result of the definition of the spacecraft reference axes, these pointing drifts are expected to be mainly detected in the spacecraft Z-axis (see Sánchez-Portal et al. 2014). One of the problems is that the thermoelastic-induced offsets do not respond immediately to the variations of SAA, but present some delay due to the heating-cooling times of the service module (SVM) and structures connecting it to the payload module (PLM).
 
Changed:
<
<
We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations. While for STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
>
>
Therefore, we should expect that the pointing offsets do not correlate directly with the SAA but with the temperature of the SVM. In order to test this hypothesis, we have performed a study on this effect by calculating the Z-axis offset for a set of pointing calibration observations (we chose these observations since the targets are true point sources with very accurate astrometry) as a function of the temperature in a passive component of SVM. Since the backup star tracker (STR2) was switched-off along the whole mission, but few operational days, the temperature sensors mounted in its structure (baseplate and baffles) measure a mostly passive element. In fact, the time variation of temperature recorded by these sensors respond to the variations of SAA, with clear and uniform delay ramps that were precisely what we wanted to find. When plotting the pointing offsets vs. temperature, we found that while for STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
  We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic effect. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C). We have applied the script to a set of calibration observations as a test, and checked that the general pointing is improved. The left panel on plot below shows the linear correlation between the STR2 temperature and the Z-axis used to correct this effect. The right panel presents the Z offset distribution before (green) and after (purple) applying the correction, the latter showing an improvement of the APE+ with respect to the original.
Line: 31 to 31
 

Changed:
<
<
<--/commentPlugin-->
>
>

<--/commentPlugin-->
 
META FILEATTACHMENT attachment="warmbetaAPE.png" attr="h" comment="Comparison of calibration observations before and after correction" date="1480670059" name="warmbetaAPE.png" path="warmbetaAPE.png" size="148359" user="PilarEsquej" version="1"
META FILEATTACHMENT attachment="STR2_vs_offset.jpg" attr="h" comment="STR2 temperature vs Z-axis offset for calibration observations" date="1482407261" name="STR2_vs_offset.jpg" path="STR2_vs_offset.jpg" size="702710" user="PilarEsquej" version="1"

Revision 62017-01-12 - PilarEsquej

Line: 1 to 1
 
META TOPICPARENT name="WebHome"

Astrometry correction due to a thermoelastic drift

Rationale

Changed:
<
<
Observations performed at the end of the Solar Aspect Angle (SAA) range (the so-called 'warm' attitude range, SAA in the 110° to 119°.2 interval) could present a degradation of the pointing performance due to thermo-elastic effects. These would include a larger APE and a pointing drift.
>
>
Observations performed at the end of the Solar Aspect Angle (SAA) range (the so-called 'warm' attitude range, SAA in the 110° to 119°.2 interval) could present a degradation of the pointing performance due to thermoelastic effects. These would include a larger APE and a pointing drift.
 
Changed:
<
<
We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations. While fot STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
>
>
We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations. While for STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
  We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic effect. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C). We have applied the script to a set of calibration observations as a test, and checked that the general pointing is improved. The left panel on plot below shows the linear correlation between the STR2 temperature and the Z-axis used to correct this effect. The right panel presents the Z offset distribution before (green) and after (purple) applying the correction, the latter showing an improvement of the APE+ with respect to the original.

Revision 52017-01-09 - PilarEsquej

Line: 1 to 1
 
META TOPICPARENT name="WebHome"

Astrometry correction due to a thermoelastic drift

Line: 8 to 8
  We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations. While fot STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
Changed:
<
<
STR2_vs_offset.jpg
>
>
We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic effect. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C). We have applied the script to a set of calibration observations as a test, and checked that the general pointing is improved. The left panel on plot below shows the linear correlation between the STR2 temperature and the Z-axis used to correct this effect. The right panel presents the Z offset distribution before (green) and after (purple) applying the correction, the latter showing an improvement of the APE+ with respect to the original.
 
Changed:
<
<
We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C).
>
>
STR2_vs_offset.jpg warmbetaAPE.png

Script Usage

 
Changed:
<
<
The script can be found in HIPE under the Scripts menu, in the General Useful scripts section.
>
>
The script Astrometry Thermoelastic Drift Correction can be found in HIPE under the Scripts menu, in the General Useful scripts section. Any Herschel observation can be processed, although for observations performed in STR switch-over periods, those indicated in http://herschel.esac.esa.int/twiki/bin/view/Public/StrSwitchOversAndSvvResets, an informative output message is only returned. The script inputs that should be provided by the user (lines 260-263) are the following:
 
Changed:
<
<
warmbetaAPE.png
>
>
Input Description
workdir working directory
obsId observation id
instrument instrument used to perform the observation
changeWCS boolean (True/False) to define output: change in WCS vs new pointing product
 
Changed:
<
<
Please note that Avoiding observations performed in STR switch-over periods, those indicated in http://herschel.esac.esa.int/twiki/bin/view/Public/StrSwitchOversAndSvvResets
>
>

Output

 
Changed:
<
<
In order to
>
>
The user can select between two possible outputs using the changeWCS input parameter:
  • changeWCS = True: new Level 2 products where the offsets in RA y DEC have been used to adjust the WCS are created and saved to the working directory. These maps incorporate the thermoelastic correction, and are ready to be used for scientific purposes. Please note that this is only applicable to photometry.
  • changeWCS = False: a new pointing product that takes into account the updated rotation matrix/quaternion and corrects the filtered attitude is created and saved to the working directory. This product should be used by the user to reprocess the observation to correct for the thermoelastic correction. Please note that for spectroscopic observations, changeWCS is automatically set to False.
  -- Pilar Esquej - 2016-12-01
Changed:
<
<

Comments

>
>


 
Changed:
<
<

<--/commentPlugin-->
>
>
<--/commentPlugin-->
 
META FILEATTACHMENT attachment="warmbetaAPE.png" attr="h" comment="Comparison of calibration observations before and after correction" date="1480670059" name="warmbetaAPE.png" path="warmbetaAPE.png" size="148359" user="PilarEsquej" version="1"
META FILEATTACHMENT attachment="STR2_vs_offset.jpg" attr="h" comment="STR2 temperature vs Z-axis offset for calibration observations" date="1482407261" name="STR2_vs_offset.jpg" path="STR2_vs_offset.jpg" size="702710" user="PilarEsquej" version="1"

Revision 42016-12-22 - PilarEsquej

Line: 1 to 1
 
META TOPICPARENT name="WebHome"

Astrometry correction due to a thermoelastic drift

Line: 8 to 8
  We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations. While fot STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
Changed:
<
<
STR2temp_vs_offset.png
>
>
STR2_vs_offset.jpg
  We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C).
Line: 24 to 24
 

Comments

Changed:
<
<
<--/commentPlugin-->
>
>

<--/commentPlugin-->
 
Deleted:
<
<
META FILEATTACHMENT attachment="STR2temp_vs_offset.png" attr="h" comment="STR2 temperature vs Z-axis offset for calibration observations" date="1480665414" name="STR2temp_vs_offset.png" path="STR2temp_vs_offset.png" size="326959" user="PilarEsquej" version="1"
 
META FILEATTACHMENT attachment="warmbetaAPE.png" attr="h" comment="Comparison of calibration observations before and after correction" date="1480670059" name="warmbetaAPE.png" path="warmbetaAPE.png" size="148359" user="PilarEsquej" version="1"
Added:
>
>
META FILEATTACHMENT attachment="STR2_vs_offset.jpg" attr="h" comment="STR2 temperature vs Z-axis offset for calibration observations" date="1482407261" name="STR2_vs_offset.jpg" path="STR2_vs_offset.jpg" size="702710" user="PilarEsquej" version="1"

Revision 32016-12-02 - PilarEsquej

Line: 1 to 1
 
META TOPICPARENT name="WebHome"

Astrometry correction due to a thermoelastic drift

Line: 10 to 10
  STR2temp_vs_offset.png
Changed:
<
<
We have created an script
>
>
We have developed a script aimed at correcting the astrometry offset produced by the thermoelastic. This should be applied to improve the pointing for observations performed at the 'warm' attitude range (STR2 temperature >-15C).

The script can be found in HIPE under the Scripts menu, in the General Useful scripts section.

  warmbetaAPE.png

Revision 22016-12-02 - PilarEsquej

Line: 1 to 1
 
META TOPICPARENT name="WebHome"

Astrometry correction due to a thermoelastic drift

Line: 6 to 6
  Observations performed at the end of the Solar Aspect Angle (SAA) range (the so-called 'warm' attitude range, SAA in the 110° to 119°.2 interval) could present a degradation of the pointing performance due to thermo-elastic effects. These would include a larger APE and a pointing drift.
Changed:
<
<
We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations
>
>
We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations. While fot STR2 temperatures below -15C the median offset presents a certain scatter around zero, for higher temperatures the behaviour of the Z-axis offset diverges. We have derived a linear correlation between the STR2 temperature and the Z-axis that aims at correcting the effect of such a thermoelastic drift.
 
Changed:
<
<
  • STR2 temperature vs Z-axis offset for calibration observations:
    STR2OffsetCal.png
>
>
STR2temp_vs_offset.png
 
Changed:
<
<
Avoiding observations performed in STR switch-over periods, those indicated in http://herschel.esac.esa.int/twiki/bin/view/Public/StrSwitchOversAndSvvResets
>
>
We have created an script

warmbetaAPE.png

Please note that Avoiding observations performed in STR switch-over periods, those indicated in http://herschel.esac.esa.int/twiki/bin/view/Public/StrSwitchOversAndSvvResets

  In order to
Line: 21 to 24
 
<--/commentPlugin-->
Changed:
<
<
  • STR2 temperature vs Z-axis offset for calibration observations:
    STR2temp_vs_offset.png

META FILEATTACHMENT attachment="STR2OffsetCal.png" attr="h" comment="STR2 temperature vs Z-axis offset for calibration observations" date="1480608610" name="STR2OffsetCal.png" path="STR2OffsetCal.png" size="73050" user="PilarEsquej" version="1"
>
>
META FILEATTACHMENT attachment="STR2temp_vs_offset.png" attr="h" comment="STR2 temperature vs Z-axis offset for calibration observations" date="1480665414" name="STR2temp_vs_offset.png" path="STR2temp_vs_offset.png" size="326959" user="PilarEsquej" version="1"
META FILEATTACHMENT attachment="warmbetaAPE.png" attr="h" comment="Comparison of calibration observations before and after correction" date="1480670059" name="warmbetaAPE.png" path="warmbetaAPE.png" size="148359" user="PilarEsquej" version="1"

Revision 12016-12-01 - PilarEsquej

Line: 1 to 1
Added:
>
>
META TOPICPARENT name="WebHome"

Astrometry correction due to a thermoelastic drift

Rationale

Observations performed at the end of the Solar Aspect Angle (SAA) range (the so-called 'warm' attitude range, SAA in the 110° to 119°.2 interval) could present a degradation of the pointing performance due to thermo-elastic effects. These would include a larger APE and a pointing drift.

We have performed a study on this effect by calculating the Z-axis offset for a set calibration observations

  • STR2 temperature vs Z-axis offset for calibration observations:
    STR2OffsetCal.png

Avoiding observations performed in STR switch-over periods, those indicated in http://herschel.esac.esa.int/twiki/bin/view/Public/StrSwitchOversAndSvvResets

In order to

-- Pilar Esquej - 2016-12-01

Comments

<--/commentPlugin-->

  • STR2 temperature vs Z-axis offset for calibration observations:
    STR2temp_vs_offset.png

META FILEATTACHMENT attachment="STR2OffsetCal.png" attr="h" comment="STR2 temperature vs Z-axis offset for calibration observations" date="1480608610" name="STR2OffsetCal.png" path="STR2OffsetCal.png" size="73050" user="PilarEsquej" version="1"
 
This site is powered by the TWiki collaboration platform Powered by Perl