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SLR Global Performance Report Card

December 1, 2018 through November 30, 2019

The performance report card is divided into three tables for readability. Table 1 contains performance parameters based on data volume, on-site processing statistics and operational compliance issues. Table 1 L contains information about Lunar Laser Ranging during the past year. Table 2 contains performance parameters based on various Analysis Centers' rapid orbital analysis results.

Below are the detailed descriptions of each column in Table 1 plots of the columns are linked in this description and in Table 1:

  • Column 1 is the station location name.
  • Column 2 is the monument marker number.
  • Column 3 is the LEO pass total during the past 12 months.
  • Column 4 is the LAGEOS pass total during the past 12 months.
  • Column 5 is the high satellite pass total during the past 12 months.
  • Column 6 is the pass total (i.e., all satellites) during the past 12 months.
  • Column 7 is the LEO NP total during the past 12 months.
  • Column 8 is the LAGEOS NP total during the past 12 months.
  • Column 9 is the high satellite NP total during the past 12 months.
  • Column 10 is the NP total (i.e., all satellites) during the past 12 months.
  • Column 11 is the total tracking minutes (i.e., all satellites) during the past 12 months. This is computed by the summation of the number of normal points multiplied by its bin size in minutes.
  • Column 12 is the average single-shot calibration RMS, in millimeters, during the last quarter.
  • Column 13 is the average single-shot Starlette RMS, in millimeters, during the last quarter.
  • Column 14 is the average single-shot LAGEOS RMS, in millimeters, during the last quarter.

The first entry in each table is for the performance baseline goal. Note: There are no baseline goals for NP data quantities, single shot RMS's.

Additional Notes: Blanks in any columns implies either that there was no data or that there was insufficient data. Only stations that have supplied data within the last year are included in the table. The table is sorted in descending order by total passes.

Table 1

Site Information Data Volume Data Quality
Column 1 2 3 4 5 6 7 8 9 10 11 12 13 14
Location Station
Number
LEO pass
Tot
LAGEOS
pass Tot
High pass
Tot
Total
passes
LEO NP
Total
LAGEOS
NP Total
High NP
Total
Total
NP
Minutes of
Data
Cal.
RMS
Star
RMS
LAG
RMS
Baseline 2300 600 3000 3500
Yarragadee 7090 16352 2189 6823 25364 258043 16809 38130 312982 147737 2.9 4.7 5.0
Changchun 7237 7047 550 3543 11140 97482 4570 15879 117931 46201 6.1 8.6 11.2
Zimmerwald_532 7810 6983 892 2940 10815 117033 12519 10934 140486 86365 7.0 9.1 12.0
Herstmonceux 7840 4993 666 2841 8500 69207 8476 9753 87436 52434 3.6 9.1 12.4
Kunming 7819 3651 541 4231 8423 42418 2251 10095 54764 23303 5.1 11.8 11.5
Mount_Stromlo_2 7825 5958 873 1383 8214 89307 6371 4999406 5095084 62174 3.3 5.1 6.7
Wettzell 8834 4084 712 2441 7237 61626 8084 16840 86550 59000 3.0 9.5 11.2
Wettzell_SOSW 7827 3150 489 3095 6734 56309 3640 14120 74069 39023 8.0 11.5 12.6
Greenbelt 7105 5040 710 745 6495 7192238 6337 4460 7203035 7156405 2.1 8040.4 8.5
Graz 7839 3412 342 2300 6054 62720 2111 11345 76176 33376 2.4 3.0 5.0
Matera_MLRO 7941 3144 962 1418 5524 28769 7108 6015 41892 38436  .9 2.4 2.8
Hartebeesthoek_HARL 7501 3070 565 710 4345 41845 3497 4324 49666 29268 3.0 5.9 7.1
Monument_Peak 7110 3610 240 362 4212 62943 1798 2726 67467 30105 2.7 6.5 9.1
Potsdam_3 7841 2658 297 931 3886 34590 1896 3326 39812 17555 2.1 6.1 7.4
Shanghai_2 7821 1585 307 1557 3449 13318 2659 6500 22477 14686 7.0 6.4 7.0
Haleakala 7119 2215 465 27 2707 32829 3915 743 37487 26405 2.5 5.8 8.6
Beijing 7249 1431 200 1019 2650 10735 1159 3396 15290 8622 8.3 11.8 17.1
Arequipa 7403 2523 74 16 2613 25039 305 205 25549 13724 4.6 5.6 4.2
Grasse_MEO 7845 515 427 1512 2454 5098 5251 5347 15696 19946 8.3   14.6
Simeiz 1873 1891 212 285 2388 18920 1092 1228 21240 10516 12.5 13.4 15.7
Hartebeesthoek_HRTL 7503 980 319 1013 2312 10367 1741 3630 15738 9401 27.4 24.1 27.6
Badary 1890 1380 368 305 2053 12182 1829 942 14953 12173   35.1 37.0
Katzively 1893 1617 130 1 1748 19173 817 2 19992 11514 24.0 9.0 8.8
Irkutsk 1891 1045 125 281 1451 7895 846 617 9358 5651 40.0 32.9 35.4
Altay 1879 94 131 1177 1402 942 717 3483 5142 2756     30.9
Komsomolsk 1868 71 119 1151 1341 1322 702 3933 5957 2538     31.8
Svetloe 1888 869 181 154 1204 6800 1110 400 8310 6800     33.8
Brasilia 7407 138 182 637 957 840 601 1837 3278 2231 29.1 20.0 29.3
Arkhyz 1886 382 184 367 933 3062 1096 1368 5526 5112   28.4 31.0
Borowiec 7811 634 93 60 787 10043 962 265 11270 6927 13.0 21.7 17.6
Riga 1884 548 79 58 685 10210 758 310 11278 5885 6.8   11.3
Baikonur 1887   284 376 660   1165 1079 2244 3495     33.5
Simosato 7838 550 95 8 653 6987 891 56 7934 7208 11.8 9.2 15.4
Kiev 1824 457 41   498 4167 281   4448 3238 11.2 30.6 22.6
Papeete 7124 364 35 83 482 4553 236 409 5198 2781      
Zelenchukskya 1889 328 37 93 458 2709 160 243 3112 2141      
Sejong 7394 285 50 3 338 4057 370 27 4454 3916 3.5 9.1 11.6
Mendeleevo 1874 68 64 124 256 1420 846 402 2668 3105 26.4 28.9 26.5
San_Fernando 7824 59 124   183 349 429   778 1565 6.5   21.6
Tanegashima 7358 54 107   161 474 810   1284 2847 1.4 3.6 4.7

 

 


Below are the detailed descriptions of each column in Table 1 L:

  • the first column, L1, is the station location name.
  • the second column, L2, is the monument marker number.
  • the third column, L3, is the number of nights during the past 12 months in which there were Lunar ranging measurements
  • the fourth column, L4, is the number of Lunar Laser Ranging normal points during the past 12 months
  • the fifth column, L5, is the number of Lunar Laser Ranging normal points during the past 3 months
  • the sixth column, L6, is the average Lunar Laser Ranging normal points rms 3 months in mm

 

Table 1 L

Site Information
Data Information
Column L1 L2 L3 L4 L5 L6
Location Station
Number
num nights tracking
last 12 mon
num npt
last 12 mon
num npts
last 3 mon
ave npt rms
last 3 mon
Grasse_MEO 7845 281 1160    
Wettzell 8834 3 23    
Matera_MLRO 7941 2 5    

 


 

Below are the detailed descriptions of each column in Table 2:

  • the first column is the station location name.
  • the second column is the monument marker number.
  • following columns are in grouped by analysis center with four columns for each
    • the first AC column is the average LAGEOS normal point RMS, in millimeters, during the last 3 months
    • the second AC column is the measure of short term bias stability, in millimeters, during the last 3 months. The short term stability is computed as the standard deviation about the mean of the pass-by-pass range biases (minimum number of passes in the last 3 months is 10)
    • the third AC column is the measure of long term bias stability, in millimeters, during the past year. The long term stability is the standard deviation of the monthly range bias estimates. A station must have tracked LAGEOS (1,2) in at least 8 of the last 12 months in order to compute this metric.
    • the fourth AC column is the percentage of LAGEOS normal points that were accepted in the analysis.

The first entry in each table is for the performance baseline goal.

Additional Notes: Blanks in any columns implies either that there was no data or that there was insufficient data. Only stations that have supplied data within the last year are included in the table. The table is sorted in descending order by total data volume.

 

Table 2

Site Information DGFI Orbital Analysis Hitotsubashi Univ.
Orbital Analysis
JCET
Orbital Analysis
MCC Orbital Analysis SHAO Orbital Analysis
Station
Location
Station
Number
LAG
NP
RMS
(mm)
short
term
(mm)
long
term
(mm)
%
good
LAG.
NP
LAG
NP
RMS
(mm)
short
term
(mm)
long
term
(mm)
%
good
LAG.
NP
LAG
NP
RMS
(mm)
short
term
(mm)
long
term
(mm)
%
good
LAG.
NP
LAG
NP
RMS
(mm)
short
term
(mm)
long
term
(mm)
%
good
LAG.
NP
LAG
NP
RMS
(mm)
short
term
(mm)
long
term
(mm)
%
good
LAG.
NP
Baseline 10.0 20.0 10.0 95 10.0 20.0 10.0 95 10.0 20.0 10.0 95 10.0 20.0 10.0 95 10.0 20.0 10.0 95
Yarragadee 7090         1.6 6.5 1.2 100.0 2.0 15.7 1.4 98.7 2.2 18.5 3.4 99.0 1.2 8.1 2.7 94.9
Changchun 7237         4.3 16.5 5.4 100.0 3.1 21.7 4.0 97.7 4.6 22.0 5.9 97.8 2.5 18.9 7.4 95.3
Zimmerwald_532 7810         1.5 6.5 1.0 100.0 1.5 12.5 3.1 99.6 3.5 15.5 2.3 96.5 1.5 8.4 3.0 96.9
Herstmonceux 7840         0.8 5.1 1.1 100.0 1.3 12.4 3.0 100.0 1.3 9.2 2.2 99.5 0.9 7.6 2.8 96.6
Kunming 7819         4.0 20.9 5.4 100.0 3.1 31.1 8.7 94.8 4.1 27.3 9.2 100.0        
Mount_Stromlo_2 7825         2.6 7.9 2.6 100.0 2.2 17.8 4.8 99.1 2.8 12.7 3.6 97.3 1.8 14.0 2.6 95.8
Wettzell 8834         1.1 5.6 6.7 100.0 1.1 14.5 6.0 99.8 8.6 39.5 8.1 94.9 0.8 8.9 2.4 97.4
Wettzell_SOSW 7827         2.5 7.0 3.2 100.0 0.9 13.7 7.1 98.7 3.5 14.5 6.6 92.8        
Greenbelt 7105         1.8 6.9 2.7 100.0 2.0 14.5 6.4 96.7 2.0 12.5 4.1 98.6 1.6 11.8 2.8 94.8
Graz 7839         1.3 5.0 2.3 100.0 0.9 11.1 6.3 99.5 1.4 10.0 4.2 95.8 0.9 8.7 3.0 96.2
Matera_MLRO 7941         1.1 6.5 1.6 100.0 1.1 13.8 2.0 99.3 1.5 12.5 2.7 99.9 0.8 10.6 2.6 94.1
Hartebeesthoek_HARL 7501         1.6 8.7 4.5 100.0 1.7 17.3 2.9 97.7 1.7 21.6 4.3 98.9 1.3 15.2 7.4 97.2
Monument_Peak 7110         2.2 8.5 3.2 100.0 2.3 16.6 9.2 99.2 2.2 10.0 14.1 92.0 1.5 14.1 11.2 95.3
Potsdam_3 7841         1.4 7.6 3.7 100.0 1.2 12.6 3.6 100.0 1.9 9.2 7.5 98.6 1.3 12.8 6.6 98.4
Shanghai_2 7821         1.7 11.4 6.3 100.0 1.5 16.9 8.7 98.9 2.2 17.3 6.3 97.4 1.6 15.8 11.8 85.2
Haleakala 7119         2.4 10.0 3.9 100.0 2.4 21.0 5.4 97.5 3.5 19.6 6.6 98.6 2.2 16.6 8.6 93.6
Beijing 7249         12.1 19.4 12.3 100.0 4.3 23.1 13.9 90.5 8.2 27.0 12.7 98.0 4.6 18.5 12.9 92.5
Arequipa 7403         5.4 14.2 7.6 100.0 2.3 15.9 14.8 91.3 5.2 42.7 34.4 96.1        
Grasse_MEO 7845         2.7 8.2 2.8 100.0 2.6 15.4 5.7 94.6 2.9 12.1 2.5 97.3 2.3 8.5 3.9 94.8
Simeiz 1873         26.9 44.9 5.1 100.0 5.7 36.0 7.6 61.9 21.9 39.0 19.8 89.4        
Hartebeesthoek_HRTL 7503         5.7 21.8 6.0 100.0 4.6 22.9 4.3 90.6 7.3 24.9 13.5 95.8        
Badary 1890         5.8 11.2 4.8 100.0 4.0 19.1 6.4 95.3 5.1 16.4 6.0 95.4 3.6 16.1 5.4 94.7
Katzively 1893         10.0 17.8 10.8 100.0 5.8 21.0 15.4 83.0 8.6 20.4 14.7 92.5 8.2 15.3 8.9 93.0
Irkutsk 1891         8.4 14.0 5.4 100.0 5.2 19.4 8.7 89.4 8.6 15.5 12.0 96.9        
Altay 1879         2.7 23.7 11.9 100.0 1.9 17.7 9.6 94.2 2.9 21.3 20.1 100.0 1.5 15.6 18.4 95.9
Komsomolsk 1868         3.9 22.0 10.7 100.0 3.5 23.3 16.3 98.4 3.4 28.7 7.8 98.1 1.8 15.4 8.4 87.5
Svetloe 1888         5.1 12.1 6.6 100.0 3.7 15.1 6.7 95.7 5.6 21.0 9.3 98.2 3.1 15.7 18.1 94.3
Brasilia 7407         3.7 16.0 4.6 100.0 2.2 35.9 23.2 92.0 4.2 18.0 18.6 100.0        
Arkhyz 1886         5.9 27.4 8.8 100.0 4.6 26.2 12.2 92.3 6.0 21.9 11.3 95.6 3.6 12.3 9.3 94.7
Borowiec 7811         3.8 18.4 3.3 100.0 3.1 17.6 10.8 99.4 4.3 21.5 6.4 100.0 2.1 15.2 7.0 95.4
Riga 1884         5.4 40.4 10.5 100.0 6.8 42.3 14.9 78.8 10.8 37.3 26.9 94.9 10.1 24.0   96.3
Baikonur 1887         6.4 18.7 6.6 100.0 3.4 23.0 9.6 91.7 6.5 18.9 12.3 94.3 4.8 21.2 5.3 98.3
Simosato 7838         4.9 15.2 8.1 100.0 4.4 17.0 13.1 89.5 6.3 19.3 11.9 98.2 6.3 12.8 22.1 93.6
Papeete 7124         2.4 7.3 12.2 100.0                        
Sejong 7394         1.9 13.2   100.0                        
Mendeleevo 1874         5.2 10.5   100.0                        
San_Fernando 7824         9.6 16.1   100.0 2.2 22.1   82.6