[IGSREPORT-19329] Wk 1615 IGS SINEX Combination
igs-rf at ign.fr
igs-rf at ign.fr
Wed Jan 5 06:35:25 PST 2011
Authors: B. Garayt, P. Rebischung
===============================================================
Combined AC solution for GPS week 1615 - 10/12/19 to 10/12/25
===============================================================
1) Contacts:
============
e-mail: igs-rf at ign.fr
Tel: 0033143988197 (Bruno Garayt)
Fax: 0033143988450
2) Products:
============
All products are available at:
CDDIS: ftp://cddis.gsfc.nasa.gov/gps/products
SOPAC: ftp://garner.ucsd.edu/pub/products
IGN: ftp://igs.ensg.eu/pub/igs/products
ftp://igs.ign.fr/pub/igs/products
igs10P1615.snx Combined weekly solution
igs10P1615.erp Daily Earth Rotation Parameters
igs10P1615.sum This file
igs10P1615.itr Residuals between AC solutions and IGS05 for the RF stations
igs10P1615.res Residuals between AC solutions and combined weekly solution
IGS10P51.snx Cumulative combined solution
IGS10P51.res Residuals between AC solutions and cumulative solution
igs00p03.erp Daily Earth Rotation Parameters since GPS week 860
3) Combination Strategy:
========================
The AC solutions are processed using the following procedure:
3-1) The AC solutions are checked/corrected for possible format problems,
station names inconsistencies, etc...
3-2) Constrained AC solutions are unconstrained according to the information
given in their SOLUTION/APRIORI blocks and then minimally constrained.
AC solutions given in the form of a normal matrix (esa) are inverted by
adding minimal constraints.
3-4) The weekly AC solutions are combined. The 7-parameters singularity is
avoided by using internal constraints. Iterations are performed until no
residuals exceed 5 cm or 5 sigma.
3-5) The combined solution is compared to IGS05 propagated at current week
(datum). Some outliers may be removed from the datum. Finally, the
combined solution is aligned to the datum using a 7-parameters
transformation.
3-6) The AC solutions NOT used in the combination are compared to the combined
solution in order to identify and remove outliers.
3-7) The weekly combined solution is added to the cumulative solution.
Iterations are performed until no residuals exceed 3 cm or 3 sigma in the
weekly solution.
3-8) The updated cumulative solution is compared to IGS05 (datum). Some outliers
may be removed from the datum. Finally, the cumulative solution is aligned
to the datum using a 14-parameters transformation.
4) Remarks:
===========
mit = mit16157.snx
mig = mit1615g.snx
ITR = IGS05.snx
igs = igs10P1615.snx
IGS = IGS10P51.snx
The following solutions are not used in the combination but only for
comparison:
mig ncl
Solutions with manual station deletion:
esa DAEJ DUND WGTN FLIN
gfz UZHL FLIN
jpl JPLM UZHL FLIN
mit NAUR FLIN
ngs FLIN
sio OUSD UZHL FLIN LYTT
4-1) Starting with GPS week 1400, the solutions are aligned to the
IGS05.snx realization of ITRF2005.
4-2) Starting with GPS week 1078, UT1-UTC from IERS Bulletin A
is included in the erp files.
4-3) Starting with GPS week 1412, the accumulated ERP file has been
changed from "igs00p02.erp" to "igs00p03.erp". The main changes
are:
1) Correction of the pole position from IGb00 to IGS05 using the
transformation in:
http://igscb.jpl.nasa.gov/mail/igsmail/2006/msg00178.html
2) Marginal ERP's in GPS week 1161 were replaced by reprocessed
values.
4-4) Starting with week 1598, the first iterative combinations are
performed using AC solutions minimally constrained over the 7
Helmert parameters. (Until week 1597, they were constrained over
the 3 rotations only.) The final combination is however still
performed with AC solutions minimally constrained in rotations only.
The combination is hardly affected by this change except that it is
now more sensitive to outliers.
5) Results:
============
5-1) AC (Variance Factor)^0.5 estimates:
=============================================
At each iteration, the variance factor for solution s is estimated by :
VF = (vs'*Ps*vs)/fs with fs = nobss - tr(As*Q*As'*Ps)
vs : residuals of solution s
Ps : weight matrix of solution s
nobss : number of observations of solution s
As : design matrix of solution s
Q : total covariance matrix
This variance factor is used to rescale the covariance matrix of solution s
for the next iteration.
Another scale factor is computed for each solution s, by comparing it to
the official cumulative solution of previous week (IGS) :
SF = (vs'*Ps*vs)/(3*nstas) with vs : residuals of the comparison
Ps : weight matrix of solution s
nstas : number of common stations
Solution |# sta| #RF | Final VF | SF |
---------------|-----|-----|---------------|---------------|
cod | 227 | 60 | 7.728 | 34.156 |
emr | 83 | 41 | 2.627 | 8.895 |
esa | 143 | 37 | 2.426 | 6.822 |
gfz | 186 | 54 | 5.789 | 27.925 |
grg | 133 | 44 | 5.690 | 10.612 |
jpl | 128 | 39 | 4.639 | 15.464 |
mit | 259 | 65 | 0.697 | 3.728 |
ngs | 217 | 61 | 15.564 | 57.891 |
sio | 269 | 62 | 0.783 | 3.412 |
mig | 423 | 66 | ------ | 3.622 |
ncl | 217 | 66 | ------ | 4.713 |
igs | 390 | 65 | ------ | ------ |
---------------|-----|-----|---------------|---------------|
5-2) Solution Residuals weighted Average & STD:
====================================================
5-2-1) With respect to the IGS05 stations:
=============================================
Solution | Weighted Average (mm) | STD (mm) |
| N E U | N E U |
---------------|---------------------------|---------------------------|
cod 60 | 0.1 -0.1 0.0 | 3.7 3.9 9.2 |
emr 41 | 0.7 -0.1 -0.1 | 4.6 4.3 8.7 |
esa 37 | 0.3 -0.3 0.2 | 4.1 4.0 10.5 |
gfz 54 | 0.1 -0.3 0.5 | 4.1 3.4 10.0 |
grg 44 | -0.5 -0.5 0.4 | 4.8 4.7 11.9 |
jpl 39 | 0.5 -0.1 -0.5 | 3.9 4.5 10.6 |
mit 65 | 0.7 0.1 0.4 | 3.7 3.8 9.8 |
ngs 61 | 0.1 -0.1 0.3 | 3.7 4.2 9.2 |
sio 62 | 0.7 -0.1 0.5 | 4.1 3.8 9.1 |
mig 66 | 1.1 -0.1 0.5 | 3.8 4.0 14.0 |
ncl 66 | 0.8 -0.2 0.7 | 3.7 4.0 11.0 |
---------------|---------------------------|---------------------------|
5-2-2) With respect to the Weekly Combination:
=================================================
Solution | Weighted Average (mm) | STD (mm) |
| N E U | N E U |
---------------|---------------------------|---------------------------|
cod 213 | -0.1 -0.0 -0.2 | 1.2 0.7 2.6 |
emr 82 | 0.1 -0.1 -0.2 | 1.9 1.0 4.2 |
esa 133 | 0.1 -0.0 0.2 | 2.4 1.1 3.7 |
gfz 177 | -0.2 0.0 0.2 | 0.6 0.7 2.8 |
grg 128 | -0.1 -0.2 -0.1 | 2.3 2.1 6.8 |
jpl 119 | 0.6 -0.1 0.1 | 1.6 1.9 4.9 |
mit 245 | 0.2 0.1 -0.1 | 0.6 0.6 1.8 |
ngs 209 | -0.1 -0.1 -0.0 | 1.2 1.6 2.9 |
sio 256 | 0.1 -0.0 0.1 | 1.2 0.8 2.3 |
mig 386 | 0.3 -0.0 -0.0 | 0.3 0.4 1.0 |
ncl 214 | 0.2 0.0 -0.0 | 0.5 0.7 1.2 |
ITR 65 | -0.3 -0.1 -0.8 | 3.8 3.7 9.5 |
---------------|---------------------------|---------------------------|
5-2-3) With respect to the Cumulative Combination:
=====================================================
Solution | Weighted Average (mm) | STD (mm) |
| N E U | N E U |
---------------|---------------------------|---------------------------|
cod 202 | -0.3 -0.1 0.2 | 2.5 2.5 6.1 |
emr 82 | 0.4 -0.2 -0.2 | 3.9 2.7 7.6 |
esa 126 | -0.1 -0.2 0.6 | 3.4 2.3 6.5 |
gfz 176 | -0.4 -0.0 0.2 | 2.7 3.0 8.1 |
grg 127 | -0.5 -0.4 0.1 | 2.9 3.3 8.6 |
jpl 111 | 0.4 -0.2 -0.2 | 4.6 4.2 10.6 |
mit 236 | -0.3 -0.1 0.3 | 2.6 3.0 7.5 |
ngs 201 | -0.6 -0.1 0.0 | 2.5 3.3 7.8 |
sio 246 | -0.1 -0.1 0.3 | 2.9 2.7 7.4 |
mig 348 | -0.1 -0.1 -0.0 | 3.8 4.6 8.5 |
ncl 215 | -0.0 -0.1 0.1 | 2.6 2.9 7.9 |
igs 347 | -0.5 -0.1 0.0 | 3.1 3.3 7.2 |
ITR 115 | -0.9 -0.1 -0.1 | 3.2 3.7 13.1 |
---------------|---------------------------|---------------------------|
5-3) 7-Parameters Transformation: AC ----> IGS05.snx
=========================================================
5-3-1) Estimates:
====================
Solution | R X R Y R Z T X T Y T Z SCL |
| (mas) (mas) (mas) (mm) (mm) (mm) (ppb) |
---------------|---------------------------------------------------------------|
cod | -0.012 0.010 -0.026 -0.5 0.6 0.5 -0.02 |
emr | 0.022 -0.033 -0.001 -1.2 9.0 -5.8 0.50 |
esa | 0.095 -0.016 -0.059 2.1 6.7 -6.4 0.34 |
gfz | 0.022 -0.012 -0.014 0.3 1.3 0.5 0.12 |
grg | 0.056 0.080 -0.103 -0.6 6.9 -6.4 0.48 |
jpl | 0.057 -0.024 0.025 -1.4 8.6 4.9 0.22 |
mit | 0.015 -0.020 -0.032 -2.1 8.4 -11.3 0.21 |
ngs | 0.081 -0.065 0.002 0.9 5.1 -9.4 0.06 |
sio | 0.154 0.042 -0.043 -1.8 9.0 0.4 0.35 |
mig | 0.031 -0.003 0.002 0.4 2.8 -0.2 0.14 |
ncl | 0.034 0.021 -0.014 -0.8 1.4 0.3 0.01 |
igs | 0.000 0.000 0.000 0.0 0.0 0.0 0.24 |
---------------|---------------------------------------------------------------|
5-3-2) STD:
==============
Solution | R X R Y R Z T X T Y T Z SCL |
| (mas) (mas) (mas) (mm) (mm) (mm) (ppb) |
---------------|---------------------------------------------------------------|
cod | 0.033 0.034 0.037 0.9 0.9 0.9 0.14 |
emr | 0.040 0.042 0.047 1.1 1.1 1.1 0.17 |
esa | 0.045 0.048 0.053 1.2 1.2 1.2 0.19 |
gfz | 0.037 0.039 0.042 1.0 1.0 1.0 0.15 |
grg | 0.048 0.051 0.056 1.3 1.3 1.3 0.20 |
jpl | 0.047 0.050 0.053 1.3 1.3 1.2 0.19 |
mit | 0.034 0.035 0.037 0.9 0.9 0.9 0.14 |
ngs | 0.034 0.036 0.037 0.9 0.9 0.9 0.14 |
sio | 0.032 0.034 0.036 0.9 0.9 0.8 0.13 |
mig | 0.033 0.034 0.036 0.9 0.9 0.9 0.14 |
ncl | 0.037 0.038 0.040 1.0 1.0 1.0 0.15 |
igs | 0.000 0.000 0.000 0.0 0.0 0.0 0.17 |
---------------|---------------------------------------------------------------|
5-4) Geocenter:
====================
| X Y Z | s X s Y s Z |
| (mm) (mm) (mm) | (mm) (mm) (mm) |
---------------|---------------------------|---------------------------|
igs | -0.9 6.7 -7.8 | 1.6 1.4 4.2 |
---------------|---------------------------|---------------------------|
5-5) ERP Residuals Weighted Average & STD:
===============================================
5-5-1) Weighted Average:
===========================
Solution | UT LOD XPO XPOR YPO YPOR |
| us us .01mas .01ma/d .01mas .01ma/d |
---------------|------------------------------------------------------------|
cod | --- --- --- --- --- --- |
emr | --- 3.2 3.2 19.4 -0.2 21.3 |
esa | --- -3.0 -2.0 19.1 -0.9 -7.5 |
gfz | --- 8.7 0.6 15.6 0.1 -8.4 |
grg | --- --- -2.5 6.4 -0.6 12.3 |
jpl | --- -2.3 2.4 0.9 -1.7 22.4 |
mit | --- -3.3 -0.8 -10.5 -0.0 -2.3 |
ngs | --- 10.9 4.7 7.6 4.0 4.3 |
sio | --- 0.7 0.5 -11.1 2.2 -0.4 |
mig | --- 1.8 0.2 -7.1 -0.6 0.4 |
ncl | --- --- --- --- --- --- |
BuA | --- 7.3 -1.4 3.7 6.0 11.6 |
---------------|------------------------------------------------------------|
5-5-2) STD:
==============
Solution | UT LOD XPO XPOR YPO YPOR |
| us us .01mas .01ma/d .01mas .01ma/d |
---------------|------------------------------------------------------------|
cod | --- --- --- --- --- --- |
emr | --- 14.4 4.6 9.3 2.5 12.1 |
esa | --- 8.9 2.5 3.5 1.7 9.8 |
gfz | --- 3.4 2.3 6.3 2.1 7.2 |
grg | --- --- 3.4 8.2 2.8 10.5 |
jpl | --- 12.5 2.5 17.2 1.4 10.4 |
mit | --- 1.6 1.1 6.3 0.6 4.6 |
ngs | --- 11.4 3.6 16.8 3.9 17.6 |
sio | --- 3.7 1.2 3.3 1.2 4.8 |
mig | --- 3.7 1.3 3.9 1.1 4.6 |
ncl | --- --- --- --- --- --- |
BuA | --- 14.1 6.6 11.2 3.8 9.2 |
---------------|------------------------------------------------------------|
5-6) Satellite Antenna Offset Residuals weighted Average & STD:
====================================================================
No Satellite phase center ...
5-7) Outliers:
===================
Outliers may be rejected at different stages of the processing:
- During the combination (stage 3-4)), outliers may be removed from the
weekly AC solutions. Thresholds are set to 5 cm and 5 sigma.
- During stage 3-6), outliers may be removed from the AC solutions NOT
included in the combination. Thresholds are set to 5 cm and 5 sigma.
- During the stacking of the weekly combined solution on the cumulative
solution (stage 3-7)), outliers may be removed from the weekly
solution. Thresholds are set to 3 cm and 8 sigma.
Solution Stage of rejection | Station | N E U |
|code id soln| (mm) (mm) (mm)|
-----------------------------------------|------------|-----------------------|
| | |
esa16157.snx Combination: Iter. 1 |HOB2 A 2| -6.7 1.0 -5.4|
grg16157.snx Combination: Iter. 1 |NOVM A 1| 41.8 -14.0 53.5|
grg16157.snx Combination: Iter. 1 |CONZ A 4| 0.8 26.0 9.3|
grg16157.snx Combination: Iter. 1 |STR1 A 1| -1.4 -1.8 69.5|
grg16157.snx Combination: Iter. 1 |MQZG A 2| -34.4 104.6 -23.6|
grg16157.snx Combination: Iter. 1 |ASPA A 3| -29.0 -59.6 29.9|
jpl16157.snx Combination: Iter. 1 |NIST A 1| 2.5 8.4 1.1|
mit16157.snx Combination: Iter. 1 |SAMO A 2| -0.8 5.9 2.3|
ngs16157.snx Combination: Iter. 1 |FAAA A 1| 1.1 -10.9 -1.9|
sio16157.snx Combination: Iter. 1 |CHUR A 5| -0.9 3.8 -0.9|
sio16157.snx Combination: Iter. 1 |MQZG A 2| 3.4 -4.2 1.3|
sio16157.snx Combination: Iter. 1 |CRAR A 1| 0.9 -0.7 17.0|
cod16157.snx Combination: Iter. 2 |THU3 A 2| 1.5 0.5 -7.7|
emr16157.snx Combination: Iter. 2 |SELE A 1| -8.3 1.2 9.1|
esa16157.snx Combination: Iter. 2 |COCO A 4| -4.8 -1.3 -4.5|
esa16157.snx Combination: Iter. 2 |PERT A 5| -5.0 -2.2 2.5|
esa16157.snx Combination: Iter. 2 |UNSA A 2| -5.3 -0.5 -0.9|
gfz16157.snx Combination: Iter. 2 |THU3 A 2| 1.6 0.4 11.9|
mit16157.snx Combination: Iter. 2 |BJFS A 1| -0.2 -0.4 5.0|
ngs16157.snx Combination: Iter. 2 |CKIS A 1| 4.5 -8.9 7.7|
sio16157.snx Combination: Iter. 2 |IQAL A 1| -1.6 3.0 0.3|
sio16157.snx Combination: Iter. 2 |DUBO A 4| -1.0 2.5 1.4|
| | |
mit1615g.snx Comp. to igs10P1615.snx |JPLM A 6| -598.6 3716.5 812.5|
mit1615g.snx Comp. to igs10P1615.snx |NAUR A 3| -3.8 -16.2 76.5|
mit1615g.snx Comp. to igs10P1615.snx |OUSD A 3| -1.6 1.9 15.1|
| | |
igs10P1615.snx Stacking: Iter. 1 |CHUR A 5| -3.7 10.6 -12.9|
igs10P1615.snx Stacking: Iter. 1 |NETT A 2| -13.3 58.6 13.9|
igs10P1615.snx Stacking: Iter. 1 |NVSK A 2| 1.1 -3.5 -64.2|
igs10P1615.snx Stacking: Iter. 1 |SIO3 A 12| 11.9 -22.0 -3.6|
igs10P1615.snx Stacking: Iter. 1 |VAAS A 1| -0.2 1.6 31.7|
igs10P1615.snx Stacking: Iter. 1 |XIAN A 1| -35.4 32.3 -41.3|
igs10P1615.snx Stacking: Iter. 1 |YAKT A 6| -15.7 5.1 -4.6|
igs10P1615.snx Stacking: Iter. 2 |BAKE A 2| -0.3 -8.7 0.0|
igs10P1615.snx Stacking: Iter. 2 |FAIV A 1| 17.9 -0.6 -5.2|
igs10P1615.snx Stacking: Iter. 3 |ALRT A 1| -7.5 4.5 4.4|
igs10P1615.snx Stacking: Iter. 3 |CCJ2 A 1| 0.2 -12.4 -0.6|
igs10P1615.snx Stacking: Iter. 3 |LAMP A 1| -8.8 2.4 -4.0|
| | |
-----------------------------------------|------------|-----------------------|
6) Check of metadata in AC solutions:
=====================================
Starting with week 1585, receivers, antennas and eccentricities reported in
AC solutions are checked versus station logs. Station logs are gathered
from the following sources:
igs ftp://igscb.jpl.nasa.gov/pub/station/log
igsp ftp://igscb.jpl.nasa.gov/pub/station/pendinglogs
epn ftp://epncb.oma.be/pub/station/log
cors ftp://www.ngs.noaa.gov/cors/station_log
unavco ftp://data-out.unavco.org/pub/logs
rgp ftp://rgpdata.ign.fr/pub/logsheet
argn ftp://ftp.ga.gov.au/geodesy-outgoing/gnss/logs
rbmc ftp://geoftp.ibge.gov.br/RBMC/dados/log
ucsd ftp://garner.ucsd.edu/pub/docs/site_logs
6-1) Receivers:
====================
AC | Station | Used Receiver | Receiver from log | Source |
----|---------|----------------------|----------------------|--------|
sio | AJAC A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | ALBH A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
sio | ALGO A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
sio | ALIC A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
mit | AUCK A | NOV OEMV3 | TRIMBLE NETRS | igs |
sio | BARH A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | BJAB A | -------------------- | TRIMBLE NETR5 | cors |
jpl | BJFS A | ASHTECH Z-XII3 | TRIMBLE NETR8 | igs |
jpl | BJPA A | -------------------- | TRIMBLE NETR5 | cors |
sio | BRMU A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | BRST A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | BSHM A | -------------------- | JPS EGGDT | ucsd |
sio | BUCU A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | CAS1 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | CASC A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | epn |
jpl | CEBR A | -------------------- | ASHTECH UZ-12 | epn |
sio | CONZ A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | DARW A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | DAV1 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
esa | DGAR A | JPS EGGDT | ASHTECH UZ-12 | igs |
jpl | DGAR A | -------------------- | ASHTECH UZ-12 | igs |
sio | DRAG A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | DUNT A | LEICA CRS1000 | LEICA GRX1200GGPRO | argn |
sio | ELAT A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | ucsd |
sio | EPRT A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
cod | FRDN A | TPS NETG3 | AOA BENCHMARK ACT | igsp |
esa | GODE A | JPS EGGDT | ASHTECH UZ-12 | igs |
jpl | GOPE A | ASHTECH Z18 | TPS NETG3 | igs |
jpl | GRAS A | ASHTECH UZ-12 | TRIMBLE NETR5 | igs |
sio | GRAZ A | LEICA GRX1200+GN | LEICA GRX1200+GNSS | igs |
sio | HERT A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | HLFX A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
sio | HNPT A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | HOB2 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | HYDE A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | ISBA A | -------------------- | TRIMBLE NETR5 | cors |
jpl | ISKU A | -------------------- | TRIMBLE NETR5 | cors |
sio | JOZ2 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | KABR A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | ucsd |
jpl | KARR A | ASHTECH UZ-12 | TRIMBLE NETR8 | igs |
mit | KARR A | ASHTECH UZ-12 | TRIMBLE NETR8 | igs |
sio | KATZ A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | ucsd |
jpl | KELY B | ASHTECH Z-XII3 | ASHTECH UZ-12 | igs |
esa | KOKB A | JPS EGGDT | ASHTECH UZ-12 | igs |
sio | KOSG A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | LAMA A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | LMMF A | -------------------- | TRIMBLE NETR5 | igs |
sio | LPAL A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | LPGS A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
mit | MAC1 A | TRIMBLE NETR5 | ASHTECH UZ-12 | igs |
mit | MAJU A | TRIMBLE 5700 | ASHTECH UZ-12 | argn |
sio | MARS A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | MATE A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | MAW1 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | MOBJ A | -------------------- | JPS LEGACY | igs |
sio | MOBS A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | MOIU A | -------------------- | ASHTECH UZ-12 | unavco |
sio | NANO A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
mit | NETT A | TRIMBLE NETRS | TRIMBLE 4000SSI | ucsd |
sio | NICO A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | NTUS A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | OHI3 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
cod | PALM A | JPS EGGDT | ASHTECH UZ-12 | igs |
sio | PDEL A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | PENC A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | POL2 A | ASHTECH Z-XII3 | ASHTECH UZ-12 | igs |
sio | PRDS A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
mit | PTBB A | ASHTECH Z-XII3 | ASHTECH Z-XII3T | igs |
sio | PTBB A | ASHTECH Z-XII3 | ASHTECH Z-XII3T | igs |
sio | RCMN A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | SOFI A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
jpl | STJO A | AOA BENCHMARK ACT | AOA SNR-8000 ACT | igs |
sio | STR1 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
esa | SUTH A | JPS EGGDT | ASHTECH UZ-12 | igs |
sio | SUTM A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
cod | TABL A | JPS EGGDT | ASHTECH Z-XII3 | igs |
esa | TASH A | JAVAD TRE_G3TH | AOA BENCHMARK ACT | igsp |
esa | THU3 A | JPS LEGACY | ASHTECH UZ-12 | igs |
jpl | TIDB A | ASHTECH Z-XII3 | ASHTECH UZ-12 | igs |
sio | TNML A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
sio | TOW2 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | TSKB A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
sio | WES2 A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | WILL A | AOA BENCHMARK AC | AOA BENCHMARK ACT | igs |
sio | WROC A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | XMIS A | LEICA GRX1200GGP | LEICA GRX1200GGPRO | igs |
sio | YOSH A | LEICA GRX1200GGP | -------------------- | ucsd |
----|---------|----------------------|----------------------|--------|
6-2) Antennas:
===================
AC | Station | Used Antenna | Antenna from log | Source |
----|---------|----------------------|----------------------|--------|
grg | AREQ A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
jpl | AREQ A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
grg | ARTU A | ASH700936D_M NONE | ASH700936D_M DOME | igs |
jpl | ARTU A | ASH700936D_M NONE | ASH700936D_M DOME | igs |
emr | CAS1 A | AOAD/M_T DOME | AOAD/M_T AUST | igs |
grg | CAS1 A | AOAD/M_T NONE | AOAD/M_T AUST | igs |
grg | CCJM A | TRM29659.00 NONE | TRM29659.00 DOME | igs |
grg | CEDU A | AOAD/M_T NONE | AOAD/M_T AUST | igs |
jpl | CEDU A | AOAD/M_T NONE | AOAD/M_T AUST | igs |
emr | CONZ A | TPSCR3_GGD DOME | TPSCR3_GGD CONE | igs |
mit | COT1 A | ASH700936E UNKN | ASH700936E NONE | cors |
grg | CRO1 A | ASH701945G_M NONE | ASH701945G_M JPLA | igs |
jpl | CRO1 A | ASH701945G_M NONE | ASH701945G_M JPLA | igs |
emr | DAV1 A | ASH701945G_M DOME | ASH701945G_M AUST | igs |
grg | DAV1 A | ASH701945G_M NONE | ASH701945G_M AUST | igs |
grg | EPRT A | TRM29659.00 NONE | TRM29659.00 LEIS | igs |
grg | FAIR A | ASH701945G_M NONE | ASH701945G_M JPLA | igs |
jpl | FAIR A | ASH701945G_M NONE | ASH701945G_M JPLA | igs |
cod | FRDN A | TPSCR.G3 NONE | AOAD/M_T NONE | igsp |
jpl | GUAM A | ASH701945B_M NONE | ASH701945B_M JPLA | igs |
emr | HOFN A | TPSCR3_GGD DOME | TPSCR3_GGD CONE | igs |
mit | HORN A | TRM41249.00 UNKN | -------------------- | ucsd |
grg | KOUC A | TRM57971.00 NONE | TRM57971.00 TZGD | igs |
grg | KR0G A | AOAD/M_T NONE | AOAD/M_T OSOD | igs |
jpl | KR0G A | AOAD/M_T NONE | AOAD/M_T OSOD | igs |
grg | LHAZ A | ASH701941.B NONE | ASH701941.B SNOW | igs |
emr | MAC1 A | AOAD/M_T DOME | AOAD/M_T AUST | igs |
jpl | MAC1 A | AOAD/M_T NONE | AOAD/M_T AUST | igs |
mit | MAC1 A | AOAD/M_T DOME | AOAD/M_T AUST | igs |
grg | MAR6 A | AOAD/M_T NONE | AOAD/M_T OSOD | igs |
jpl | MAR6 A | AOAD/M_T NONE | AOAD/M_T OSOD | igs |
emr | MAW1 A | AOAD/M_T DOME | AOAD/M_T AUST | igs |
grg | MAW1 A | AOAD/M_T NONE | AOAD/M_T AUST | igs |
grg | MCM4 A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
jpl | MCM4 A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
grg | MDO1 A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
jpl | MDO1 A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
grg | MTKA A | ASH701073.1 NONE | ASH701073.1 SNOW | igs |
mit | NETP A | TRM55971.00 NONE | TRM57971.00 NONE | cors |
mit | NETT A | TRM55971.00 NONE | TRM29659.00 SCIS | ucsd |
emr | NRMD A | TRM57971.00 DOME | TRM57971.00 TZGD | igs |
grg | NRMD A | TRM57971.00 NONE | TRM57971.00 TZGD | igs |
jpl | NVSK A | TRM33429.00+GP NONE | TRM33429.00+GP DOME | igs |
jpl | NYA1 A | ASH701073.1 NONE | ASH701073.1 SNOW | igs |
grg | NYAL A | AOAD/M_B NONE | AOAD/M_B DOME | igs |
emr | OHI2 A | TPSCR.G3 DOME | TPSCR.G3 TPSH | igs |
grg | ONSA A | AOAD/M_B NONE | AOAD/M_B OSOD | igs |
jpl | ONSA A | AOAD/M_B NONE | AOAD/M_B OSOD | igs |
jpl | PETS A | ASH701933B_M NONE | ASH701933B_M SCIS | igs |
sio | REDU A | ASH701945C_M UNKN | ASH701945C_M NONE | igsp |
grg | SANT A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
grg | SCOR A | ASH701941.B NONE | ASH701941.B SCIS | igs |
grg | SEY1 A | ASH701945B_M NONE | ASH701945B_M DOME | igs |
jpl | SEY1 A | ASH701945B_M NONE | ASH701945B_M DOME | igs |
jpl | SHAO A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
cod | SMST A | TRM41249.00 TZGD | TRM41249.00 DOME | igsp |
grg | SPT0 A | AOAD/M_T NONE | AOAD/M_T OSOD | igs |
grg | SYOG A | AOAD/M_T NONE | AOAD/M_T DOME | igs |
jpl | SYOG A | AOAD/M_T NONE | AOAD/M_T DOME | igs |
esa | TASH A | JAV_RINGANT_G3T NONE | AOAD/M_T NONE | igsp |
grg | THU3 A | ASH701073.1 NONE | ASH701073.1 SCIS | igs |
jpl | THU3 A | ASH701073.1 NONE | ASH701073.1 SCIS | igs |
jpl | TIDB A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
emr | TOW2 A | AOAD/M_T DOME | AOAD/M_T AUST | igs |
grg | TOW2 A | AOAD/M_T NONE | AOAD/M_T AUST | igs |
jpl | TSKB A | AOAD/M_T NONE | AOAD/M_T DOME | igs |
grg | VIS0 A | AOAD/M_T NONE | AOAD/M_T OSOD | igs |
jpl | WILL A | AOAD/M_T NONE | AOAD/M_T EMRA | igs |
grg | WSRT A | AOAD/M_T NONE | AOAD/M_T DUTD | igs |
jpl | XIAN A | AOAD/M_T NONE | AOAD/M_T JPLA | igs |
jpl | YAKT A | ASH701933B_M NONE | ASH701933B_M SCIS | igs |
jpl | YSSK A | ASH701933B_M NONE | ASH701933B_M DOME | igs |
----|---------|----------------------|----------------------|--------|
6-3) Eccentricities:
=========================
AC | Station | Used Eccentricity | Eccentricity from log | Source |
----|---------|-------------------------|-------------------------|--------|
mit | HORN A | 0.0550 0.0000 0.0000 | -0.0000 -0.0000 -0.0000 | ucsd |
esa | JAB2 A | 0.0030 0.0000 0.0000 | 0.0000 0.0000 0.0000 | argn |
mit | NETT A | 0.0550 0.0000 0.0000 | 0.0031 0.0000 0.0000 | ucsd |
----|---------|-------------------------|-------------------------|--------|
More information about the IGSREPORT
mailing list