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: http://www.atnf.csiro.au/people/Tasso.Tzioumis/sched/Satellite_Tracking.html
Дата изменения: Unknown Дата индексирования: Sun Apr 10 11:04:15 2016 Кодировка: Поисковые слова: mercury |
There is a project to use the VLBA to provide positional data to help navigate interplanetary spacecraft. For this project, the VLBA must be able to point at the spacecraft so the ability to do so has been added to SCHED as of March 2004. The spacecraft positions are obtained with the help of spice files that are typically from JPL. The NAIF software package from JPL is called to read the spice files and calculate positions. The NAIF software significantly increases the size of a SCHED distribution, and the satellite tracking capability is unlikely to be needed outside the AOC. Therefore the tracking capability is not included in the default SCHED distribution.
To use the tracking capability, a Satellite Initialization section needs to be included in the main input file. That section contains a group of inputs for each satellite. There are four input parameters in each group:
Note that the satellite routines also set the velocity for the satellite for use with DOPPLER. The satellite frequencies can be specified with their rest frequencies in a LINEINIT section.
There seems to be an incompatibility between the NAIF sofware used for satellite tracking and the code used for tracking planets based on a JPL ephemeris that is used elsewhere in SCHED. It is best not to mix the two. The satellite ephemeris files typically also contain the planets so, if you wish to point at both satellites and planets, you can do it with the satellite files alone. Just don't set ephfile.
Note that, according to notes in the code, this satellite tracking section of SCHED does not take into account diurnal aberration which it should, because it is also not taken into account in the on-line system. The planet section of sched does take it into account. This leads to different calculated positions when using the ephemeris and when using the satellite tracking. Some day, this should all be handled better, but the effect is under an arcsecond so it does not matter for pointing antennas.
When groups have been given for all satellites, give a line that contains the word ENDSAT and a slash.
If the above section is provided and one of the satellites is a source in the schedule, SCHED will call the NAIF software every scan to get updated positions and rates. It will also calculate an approximate parallax correction for each station. This can amount to several arcseconds, and the calculation is believed to be good to an arcsecond or better.
For a satellite (or any moving source, for that matter), SCHED plotting can help you see where the object is going. In the RD (RA/Dec) plots, a line will be plotted for each scan. A likely use for this capability would be to obtain the transmission schedule for a satellite over some days or weeks, make a schedule with a scan for each period that it is transmitting, then make the RD plot and show the calibrators. This will help identify times when the satellite is both on and near a likely phase reference source.
There is a SCHED example, egsat.com that demonstrates the use of the satellite capability. Interested users are recommended to start with that example.
The scheme for handling moving sources in VEX files is not yet established. However, to correlate such observations on the VLBA DiFX correlator, a Vex file is needed for all the information other than the positions. Thus VEX files can be written when there are moving positions, but several warnings will be written about the use of such files. The positions of the moving sources should be obtained from ephemeris information at correlation time, separately from the VEX file. For pointing, positions may or may not be good enough depending on the rates. Also note that solar system objects may require offset pointing positions between different stations and that is not described in the VEX file.