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| The program pole solves pole right ascension, declination, and rotation rate for a body in principal axis rotation. The rotation rate is calculated in degrees/day while right ascension and declination are in degrees. | This program solves for the pole right ascension, declination and rotation rate for a body in principal axis rotation. The rotation rate is calculated in degrees/day while right ascension and declination are calculated in degrees. |
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| For pole to run, [[POLE.TXT]] and [[LMRKLIST.TXT]] are required in the working directory. [[LMRKLIST.TXT]] is just a file containing a list of landmarks and [[POLE.TXT]] contains the predicted pole RA (deg), DEC (deg), PM (deg), and OMEGA (deg/day). These values are given in the .tpc kernel file for the object. | == Input Files == * POLE.TXT - simple text file containing nominal pole RA (deg), DEC (deg), PM (deg), OMEGA (deg/day) * [[LMRKLIST.TXT]] - list of landmarks |
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| == Input-Files == * [[POLE.TXT]] - simple text file containing nominal pole RA (deg), DEC (deg), PM (deg), OMEGA (deg/day) * [[[LMRKLIST.TXT]] - list of landmarks |
'''''' /!\ POLE.TXT and [[LMRKLIST.TXT]] must be in the working directory. |
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| == Input stdin == * A time in UTC (make sure it is within the span supported by the kernels) |
POLE.TXT is a single row file that contains the predicted pole RA (deg), DEC (deg), PM (deg), and OMEGA (deg/day). These values are given in the .tpc kernel file for the object. [[LMRKLIST.TXT]] contains a list of landmarks. ---------- == Using pole == === 1. Input a time in UTC. === /!\ Make sure the time is within the span supported by the kernels. |
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| * 0 if you want to iterate, 1 if you want to keep result, 2 if you want previous result (nominal if on 1st iteration) | |
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| * determine whether you want the rotation rate fixed ( y for yes, n for no) | === 2. Create a POLE.TXT file. === |
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| == Output-Files == * none |
Here is a sample POLE.TXT file: {{{ 86 -65 89.00000000 2010.48945 }}} === 3. Answer whether you want the rotation rate fixed (y for yes, n for no). === === 4. Enter === * '''0''' if you want to iterate * '''1''' if you want to keep the result (this updates POLE.TXT) * '''2''' if you want the previous result (this is nominal if on the first iteration) Here is a sample output from the POLE.TXT input: {{{ 86.60062 -65.00002 90.42707 2009.99979311 0.05176 0.02171 0.00000001 }}} The first row gives all the new pole parameters for POLE.TXT. The second row shows the change. ================= Testing using the NTE3A data set showed that picking different Epoch times over the time span of the images used (in this case 22 days) resulted in no change of RA, DEC, or rotation rate, and the PM at J2000 only change by 0.07 deg. ----------- ''(Compiled by KD)'' CategoryPrograms |
pole
Category B |
Version 3.0 |
Description
This program solves for the pole right ascension, declination and rotation rate for a body in principal axis rotation. The rotation rate is calculated in degrees/day while right ascension and declination are calculated in degrees.
Input Files
- POLE.TXT - simple text file containing nominal pole RA (deg), DEC (deg), PM (deg), OMEGA (deg/day)
LMRKLIST.TXT - list of landmarks
![/!\](/wiki/classic/img/alert.png "/!\"){kind=small}
POLE.TXT and LMRKLIST.TXT must be in the working directory.
POLE.TXT is a single row file that contains the predicted pole RA (deg), DEC (deg), PM (deg), and OMEGA (deg/day). These values are given in the .tpc kernel file for the object. LMRKLIST.TXT contains a list of landmarks.
Using pole
1. Input a time in UTC.
- Make sure the time is within the span supported by the kernels.
2018 NOV 16 13:09:54.824
2. Create a POLE.TXT file.
Here is a sample POLE.TXT file:
86 -65 89.00000000 2010.48945
3. Answer whether you want the rotation rate fixed (y for yes, n for no).
4. Enter
0 if you want to iterate
1 if you want to keep the result (this updates POLE.TXT)
2 if you want the previous result (this is nominal if on the first iteration)
Here is a sample output from the POLE.TXT input:
86.60062 -65.00002 90.42707 2009.99979311
0.05176 0.02171 0.00000001The first row gives all the new pole parameters for POLE.TXT. The second row shows the change.
================= Testing using the NTE3A data set showed that picking different Epoch times over the time span of the images used (in this case 22 days) resulted in no change of RA, DEC, or rotation rate, and the PM at J2000 only change by 0.07 deg.
(Compiled by KD)