NOTES FOR: rd0207
Prepared by C. Thomas, NVI, Inc./GSFC
===========================================================
Parameter values for experiment RD0207  
Experiment description: R&D
Scheduler: NASA          Correlator: HAYSTACK
Nominal start: 2002-191-18:00:00     Nominal end: 2002-192-18:00:00
 Current yyyyddd:    2002191 (2002.52)  ( 12466 MJD, WED. 10JUL.)
 Greenwich sidereal time:   13:13:57.10 (18: 0: 0 UT)
 Sun's RA and DEC:    7h 19.3m    22d 11.2
===========================================================
First observations
Source      Start      DURATIONS                   
name     yyddd-hhmmss  Ap  Gc  Kk  Ma  Ny  Wf  Wz 
1357+769 02191-180000|  69 238 462 462 332 445 325|
===========================================================
Last observations
Source      Start      DURATIONS                   
name     yyddd-hhmmss  Ap  Gc  Kk  Ma  Ny  Wf  Wz 
1622-253 02192-171907|             188         188|
1044+719 02192-172445|  87  87                    |
2121+053 02192-172815|     269 269                |
1300+580 02192-173454|  84 452         449 452 435|
0552+398 02192-174449|  30  30 165      52 105 165|
0727-115 02192-175033|  30      48          48    |
===========================================================
Notes by Dan MacMillan, Feb 27, 2002
 
Purpose of Experiment
 
The goal of this experiment is to investigate instrumental errors by
scheduling observations with very high SNR. The high SNR is necessary in
order to allow phase delay ambiguities to be resolved. With the much more
precise phase delay observables one can then investigate possible systematic
variations.  For instance, we have seen subdaily cycles in the time
variation of solution residuals. If these systematic variations can be
identified, it may be possible to introduce corrections for them.
Additionally, we will investigate intra-scan variations of residual fringe
phase. Usually VLBI experiments are scheduled with target minimum SNRs of
20 at X-band and 15 at S-band. To resolve phase delays, we chose a much
higher minimum of 80 at X-band and 60 at S-band. Once this experiment is
analyzed, we will assess whether such high limits are necessary since this
significantly reduces the number of observations/hour that can be observed
at each site.
 
Type of Experiment
 
This experiment uses a 7-station northern hemisphere geodetic network. We
had to compromise between the parameters of a standard geodetic schedule
made with smooth sky coverage and the high SNR requirement that
significantly reduces the possible number of station observations/hour. The
antenna at Harteboestoek was available, but we decided not to include it
because schedule simulations showed that HartRAO was not connected well
enough to observe more than 2-3 observations/hour. Simulations showed that
EOP formal uncertainties were not significantly improved by including
HartRAO at this level. The high SNR requirement reduced the number of
observations for this network significantly from an average of about 12-15
observations/hour for other routine schedules to 7-8 observations/hour (for
non-HartRAO sites).  Another consideration in making the schedule was that
we decided to reduce the possible number of sources observed to increase the
average number of observations made on each source. The standard list of 70
sources was reduced to 36 sources by taking out infrequently observed
sources or sources that were redundant in the sense of being close to other
more frequently observed sources. We tried to maintain good low elevation
coverage for atmosphere parameter estimation.
 
===========================================================

   SKED Summary from file ./rd0207.skd for experiment RD0207  

      (all scans with at least one subnet station)


 Average number of obs. per baseline per source (normalized by up-time) =   5.2
 Min =    .0   Max =   43.3 (Baseline Ny-Wz on CTA26   )   RMS =   7.0

 Total time:       1431 minutes ( 23.9 hours).

 Key:     Ap=ALGOPARK   Gc=GILCREEK   Kk=KOKEE      Ma=MATERA     Ny=NYALES20
          Wf=WESTFORD   Wz=WETTZELL

                  Ap  Gc  Kk  Ma  Ny  Wf  Wz  Avg
 % obs. time:     15  28  32  34  33  29  36  30 
 % cal. time:      2   2   1   2   2   1   2   2 
 % slew time:     56  17  11  17  11   9   8  18 
 % idle time:     25  51  54  45  52  58  53  48 
 # of tapes :     .9 1.6 1.8 1.9 2.3 1.7 2.0
 total # scans:  207 201 171 188 182 169 218 190 
 # scans/hour :    8   8   7   7   7   7   9  8.0
 Avg scan (sec):  65 121 161 158 157 151 142 136 
 tape change times (hhmm):
               0000 0824 0742 0605 0426 0921 0518 
               0000 0000 0000 0000 1456 0000 0000 
                                                                                                                
      # OF OBSERVATIONS BY BASELINE

   | Ap  Gc  Kk  Ma  Ny  Wf  Wz   StnTotal 
 ------------------------------------------
 Ap|207 114  94  66  95 154  91      614 
 Gc|    201 150  43 103  81  62      553 
 Kk|        171  17  72  72  30      435 
 Ma|            188 112  81 187      506 
 Ny|                182  95 139      616 
 Wf|                    169  95      578 
 Wz|                        218      604 


 Number of  2-station scans:  172
 Number of  3-station scans:   95
 Number of  4-station scans:   49
 Number of  5-station scans:   47
 Number of  6-station scans:   32
 Number of  7-station scans:   12

 Total # of scans, observations:   407    1953

===========================================================
Recording mode
  Name  Code 
GEOSX4F  4F
Recording mode setup for:
   ALGOPARK MATERA   NYALES20 WESTFORD WETTZELL 
  Mode      Tot.Rate     Tot.BandW   #chan #bits  Barrel
 Mk341:2  256.000 Mbits 128.000 MHz   14   1     NONE
  Chan.BW  #Subpasses  Tracks(*fan)  Tot.tracks  Speed
  8.00 MHz      1         16(*2)        32       160.00
  X-band  spanned bw=   720.0 MHz       rms spanned bw=   280.4 MHz
  S-band  spanned bw=   120.0 MHz       rms spanned bw=    48.8 MHz
  Effective number of channels recorded per sub-pass
         X         S       Total
         10.000     6.000    16.000
Recording mode setup for:
   GILCREEK 
  Mode      Tot.Rate     Tot.BandW   #chan #bits  Barrel
 VLBA1:2  256.000 Mbits 128.000 MHz   14   1     8:1 
  Chan.BW  #Subpasses  Tracks(*fan)  Tot.tracks  Speed
  8.00 MHz      1         16(*2)        32       160.00
  X-band  spanned bw=   720.0 MHz       rms spanned bw=   280.4 MHz
  S-band  spanned bw=   120.0 MHz       rms spanned bw=    48.8 MHz
  Effective number of channels recorded per sub-pass
         X         S       Total
         10.000     6.000    16.000
Recording mode setup for:
   KOKEE    
  Mode      Tot.Rate     Tot.BandW   #chan #bits  Barrel
 VLBA1:2  256.000 Mbits 128.000 MHz   14   1     16:1
  Chan.BW  #Subpasses  Tracks(*fan)  Tot.tracks  Speed
  8.00 MHz      1         16(*2)        32       160.00
  X-band  spanned bw=   720.0 MHz       rms spanned bw=   280.4 MHz
  S-band  spanned bw=   120.0 MHz       rms spanned bw=    48.8 MHz
  Effective number of channels recorded per sub-pass
         X         S       Total
         10.000     6.000    16.000
===========================================================
Tape types
 ID  Station   Tape length        Density 
 Ap  ALGOPARK 17400feet (Thin )   56250. (High)
 Gc  GILCREEK 17400feet (Thin )   56700. (High)
 Kk  KOKEE    17400feet (Thin )   56700. (High)
 Ma  MATERA   17400feet (Thin )   56250. (High)
 Ny  NYALES20 17400feet (Thin )   56250. (High)
 Wf  WESTFORD 17400feet (Thin )   56250. (High)
 Wz  WETTZELL 17400feet (Thin )   56250. (High)
===========================================================
SNR Targets
 Minimum SNR by baseline for multi-baseline scans
     X-band (margin   5)     S-band (margin   5)
     Ap  Gc  Kk  Ma  Ny  Wf          Ap  Gc  Kk  Ma  Ny  Wf  
 Gc  80                          Gc  60
 Kk  80  80                      Kk  60  60
 Ma  80  80  80                  Ma  60  60  60
 Ny  80  80  80  80              Ny  60  60  60  60
 Wf  80  80  80  80  80          Wf  60  60  60  60  60
 Wz  80  80  80  80  80  80      Wz  60  60  60  60  60  60