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SLR Global Performance Report Card

June 1, 2017 through May 31, 2018

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 15978 2697 10382 29057 278327 24338 40122 342787 190559 3.2 4.7 4.9
Changchun 7237 8972 1000 5305 15277 82386 6651 15397 104434 54431 5.5 8.6 10.2
Mount_Stromlo_2 7825 6797 1265 4274 12336 98440 10234 14969 123643 83049 3.2 4.6 7.1
Zimmerwald_532 7810 5647 897 2702 9246 93178 11463 8455 113096 77530 6.0 9.1 11.9
Herstmonceux 7840 4455 707 3411 8573 62912 8318 10666 81896 51808 3.4 9.3 13.2
Matera_MLRO 7941 4334 1498 2556 8388 51391 12597 11742 75730 64960  .9 2.6 3.0
Greenbelt 7105 6216 959 953 8128 120246 9878 3990 134114 79627 2.1 6.7 9.1
Monument_Peak 7110 5272 669 1148 7089 94097 5086 3002 102185 54935 4.7 7.7 10.5
Wettzell 8834 3474 500 2505 6479 31587 3007 9563 44157 26662 7.4 8.7 11.8
Graz 7839 3282 454 2210 5946 67122 3071 11478 81671 41463 2.2 5.9 5.2
Potsdam_3 7841 4407 546 693 5646 75628 5066 3224 83918 46013 6.8 10.8 12.6
Shanghai_2 7821 2385 546 2538 5469 21208 5933 10830 37971 29756 8.6 9.3 8.6
Kunming 7819 2397 409 1835 4641 32269 1877 5021 39167 19921 6.1 12.3 12.1
Wettzell_SOSW 7827 1625 367 2179 4171 18407 1845 6413 26665 13408 7.5 10.3 11.2
Hartebeesthoek_HARL 7501 2237 590 729 3556 31368 4175 3329 38872 27751 3.7 10.7 10.4
Beijing 7249 1780 375 1299 3454 14845 2601 4730 22176 16069 11.0 14.4 21.5
Arequipa 7403 2863 139   3002 33763 729   34492 20482 6.1 8.1 8.6
Altay 1879 212 335 2385 2932 3942 1907 8466 14315 6945     33.9
Simeiz 1873 2027 337 292 2656 23532 2023 1331 26886 16552 23.1 10.8 12.6
Haleakala 7119 2047 419 1 2467 31793 3175 3 34971 24152 3.1 6.7 9.5
Komsomolsk 1868 115 240 2059 2414 1971 1395 7618 10984 4914     30.7
Katzively 1893 2012 283 46 2341 22412 2164 269 24845 17447 26.9 10.1 11.0
Badary 1890 1956 145 118 2219 18497 727 382 19606 11301   29.2 28.0
Irkutsk 1891 1177 250 715 2142 10209 2119 1506 13834 11460 34.9 30.2 34.1
Simosato 7838 1369 398 5 1772 21448 6287 25 27760 33327 3.6 8.0 15.8
Brasilia 7407 468 347 911 1726 1848 1235 3211 6294 4747 36.2 21.8 31.5
Zelenchukskya 1889 861 195 400 1456 8555 1449 1099 11103 9274   23.4 37.5
Baikonur 1887 68 407 935 1410 433 1731 3405 5569 5613     31.8
Papeete 7124 849 148 299 1296 13952 1382 1472 16806 10468 7.0 8.9 10.1
Riga 1884 860 88 24 972 15301 701 116 16118 7381 9.6 15.5 15.9
Arkhyz 1886 399 191 361 951 3204 914 1149 5267 4635   35.6 34.2
Borowiec 7811 696 171 19 886 12052 1699 80 13831 10210 12.6 20.5 17.3
Hartebeesthoek_HRTL 7503 430 155 286 871 4748 720 842 6310 3895 34.2 26.2 31.1
Grasse_MEO 7845 212 290 65 567 5091 3799 938 9828 15358 8.7   14.5
Mendeleevo 1874 127 86 290 503 2486 1354 862 4702 5000 -0.0 22.3 26.1
Kiev 1824 360 39   399 2683 207   2890 2245 12.4 24.4 26.6
Sejong 7394 306 47 1 354 4588 484 5 5077 4041 3.9 9.1 12.0
McDonald 7080 241 41 1 283 2014 274 2 2290 2029 8.8 11.0 11.3

 

 


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 190 676 154 28.4
Matera_MLRO 7941 20 43 7 41.4

 


 

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 2.6 11.3 1.4 100.0 1.6 5.7 0.8 100.0 1.8 13.6 2.0 99.4 2.1 14.7 2.9 99.4 1.4 8.9 1.1 91.7
Changchun 7237 3.3 14.6 3.7 100.0 2.4 14.1 4.4 100.0 1.9 17.5 3.3 99.5 4.3 14.9 7.3 98.4 1.6 33.8 21.2 93.9
Mount_Stromlo_2 7825 3.2 15.9 6.0 100.0 2.4 6.0 2.8 100.0 2.2 15.0 5.7 100.0 2.9 15.3 6.1 96.5 1.9 9.6 3.2 96.3
Zimmerwald_532 7810 2.9 11.0 4.6 100.0 1.4 6.1 2.6 100.0 1.5 13.8 5.5 99.7 2.2 10.0 3.8 97.6 1.5 8.9 3.4 94.7
Herstmonceux 7840 2.0 8.3 1.6 100.0 1.1 5.7 1.6 100.0 1.1 11.4 2.8 99.0 1.7 13.1 2.6 99.1 1.1 7.8 2.1 96.8
Matera_MLRO 7941 2.3 8.4 4.2 100.0 1.1 7.0 2.5 100.0 1.2 13.3 4.4 99.6 1.6 13.2 4.0 99.9 0.9 13.1 5.9 96.1
Greenbelt 7105 2.6 8.3 2.9 100.0 1.8 6.4 1.3 100.0 2.2 10.8 2.1 99.6 2.1 14.0 3.2 98.4 1.9 11.1 3.5 93.6
Monument_Peak 7110 4.0 13.1 6.4 100.0 2.6 8.1 2.4 100.0 2.7 12.6 3.4 98.1 2.5 15.1 3.6 96.4 1.7 17.1 4.7 88.5
Wettzell 8834         2.1 5.8 1.9 100.0 1.7 14.4 5.8 99.2 2.1 11.1 2.8 97.4        
Graz 7839 2.4 8.2 3.0 100.0 1.2 5.4 2.0 100.0 1.0 9.1 6.7 97.3 2.5 7.6 3.2 95.8 0.6 10.5 3.4 95.5
Potsdam_3 7841 2.0 7.5 4.4 100.0 1.5 6.7 3.5 100.0 1.2 13.3 4.0 100.0 2.0 9.3 5.0 98.0 1.1 14.4 4.3 96.6
Shanghai_2 7821 3.0 15.3 7.6 100.0 1.5 11.8 6.8 100.0 1.4 19.6 12.0 99.3 2.1 24.4 7.8 99.3 1.0 17.3 5.8 94.3
Kunming 7819 4.9 17.2 26.2 100.0 3.5 16.8 8.8 100.0 3.0 26.0 15.0 98.0 4.4 21.8   99.7 2.4 21.1   98.1
Wettzell_SOSW 7827 1.6 10.1 3.7 100.0 1.4 9.0 3.6 100.0 0.8 14.1 9.7 100.0 1.7 13.5 6.1 92.2 0.8 18.6   96.3
Hartebeesthoek_HARL 7501 2.9 8.8 9.8 100.0 1.7 7.0 4.6 100.0 1.9 13.6 9.3 99.1 1.8 19.8 8.9 98.3        
Beijing 7249 10.8 18.8 4.9 91.2 16.3 24.9 7.8 100.0 4.2 23.3 8.5 81.3 7.8 26.0 8.3 92.1 6.6 18.9 8.7 84.7
Arequipa 7403         4.1 7.9 4.5 100.0 3.4 12.4 8.4 94.3 7.7 43.1   100.0        
Altay 1879 4.1 10.2 6.0 100.0 2.5 17.0 8.7 100.0 2.2 23.5 13.6 100.0 3.4 23.2 8.9 99.2 3.3 20.0 8.6 92.0
Simeiz 1873 20.4 30.3 12.9 90.0 21.5 39.4 14.4 100.0 6.7 39.7 11.1 65.1 17.7 43.5 12.8 93.1        
Haleakala 7119 5.2 15.0 10.8 98.7 2.6 7.6 2.2 100.0 2.7 17.2 1.8 97.5 4.2 21.1 5.0 98.4        
Komsomolsk 1868 6.1 12.3 12.8 95.2 5.1 20.7 17.3 100.0 4.5 28.2 25.6 96.2 4.5 24.9 16.3 98.0 5.2 15.3 9.1 92.5
Katzively 1893         10.8 19.3 5.6 100.0 6.1 21.2 7.8 81.1 10.0 17.3 9.9 88.6 10.0 14.3 13.3 94.7
Badary 1890         6.4 12.1 8.6 100.0 4.4 18.3 13.5 97.5 4.7 24.7 11.5 98.4        
Irkutsk 1891 8.9 14.1 5.6 99.6 8.0 13.6 6.7 100.0 4.4 18.5 6.3 88.7 7.7 13.6 10.1 92.9 6.5 19.0 7.0 95.2
Simosato 7838 5.7 16.1 2.6 100.0 3.9 9.7 3.8 100.0 4.6 14.4 6.2 96.4 5.1 14.5 7.1 99.8 5.9 18.4 5.6 95.6
Brasilia 7407         4.0 24.4 8.9 100.0 2.0 33.3 25.0 88.1 3.9 17.2 13.4 96.0        
Zelenchukskya 1889         6.4 13.2 7.3 100.0 5.1 21.5 12.8 95.2 6.5 11.2 11.6 97.7 4.4 21.8 9.1 95.0
Baikonur 1887         5.8 15.2 8.5 100.0 3.3 23.4 17.2 94.7 5.4 12.6 9.3 96.0 4.3 25.9 12.3 96.0
Papeete 7124         3.2 10.9 7.8 100.0 2.7 20.8 16.9 98.8 3.3 24.9 11.8 96.9        
Riga 1884 13.9 11.2 25.3 100.0 8.5 31.4 24.9 100.0 5.8 33.2 25.5 75.2 11.4 35.4 31.9 93.3 8.6 20.8   92.2
Arkhyz 1886         6.3 22.0 9.2 100.0 5.3 28.1 18.1 83.3 6.0 28.1 10.3 95.2        
Borowiec 7811 4.6 9.9 11.4 100.0 3.3 8.7 9.1 100.0 3.3 14.6 13.7 99.8 4.2 9.8 8.3 100.0 2.1 13.9 11.5 95.1
Hartebeesthoek_HRTL 7503         6.3 18.5   100.0 2.8 19.9   95.0 4.9 16.8   98.4        
Grasse_MEO 7845 3.6 7.4 2.6 100.0 3.3 11.7 7.9 100.0 3.0 21.8 6.2 98.5 2.8 8.8 5.2 95.0 2.4 12.0 4.3 95.7
Mendeleevo 1874         3.1 10.5 7.7 100.0 3.9 14.8   98.8 4.3 12.9 8.9 98.7 3.8 13.5   95.0