[IGSREPORT-25276] Wk 1947 IGS Final Orbits
acc
acc at igs.org
Sun May 21 22:01:58 PDT 2017
Author: AC Coordinator / GA MIT
sum-file Version 2.0
Final IGS Orbit Combination - Week 1947 (Apr 30, 2017 - May 06, 2017)
Contacts: acc at igs.org
COMBINATION STRATEGY:
---------------------
Starting with GPS week 860, the IGS Final orbit combination is done directly
in the ITRF without any alignment to the Bulletin B EOP series.
Each centre satellite clock corrections are first transformed to a common
reference. One of the following two methods can be used (the REMARKS section of
this report gives which method is used):
[1] For each centre, a clock offset and a drift are estimated with respect to
the broadcast clock corrections using only non-SA satellites;
[2] A chosen reference centre is aligned to the broadcast clock corrections
using all satellites. All other centres are then aligned to that reference
centre.
The offsets and drifts are used to align each centre satellite clock
corrections to GPS time. Ephemerides and clock corrections are then combined
as weighted averages computed over all centres. Each centre is given a
position weight and a clock weight. The position weights are computed from
each centre's absolute deviation to the unweighted average orbit after the
estimation of a 7-parameter Helmert transformation. The clock weights are
either computed from [1] the absolute deviation of the initial alignment to
broadcast clock for the non-SA satellites, or [2] from the absolute deviation
of centre's aligned clock corrections with respect to the unweighted mean.
Finally, a 7-parameter Helmert transformation and clock offset and drift are
estimated for each centre with respect to the combined solutions and parameters
and RMS of fit reported. All the above estimations are performed using the
L1-norm robust scheme.
Each centre ephemerides are also evaluated individually and independently from
the orbit combination by using week long arcs. The Earth Orientation Parameters
(EOP) used in this evaluation are those submitted by the respective centres.
The IGS combined orbits/clocks and all centres providing both orbit and clock
solutions are further evaluated by an independent point positioning (navigation)
program that uses both phase and pseudorange data at each SP3 epoch. This is
primarily intended for testing clock solution precision as well as the
orbit/clock consistency.
Like the clock solutions broadcast in the navigation message, the combined
satellite clocks are corrected for the periodical relativistic correction (see
e.g. GPS interface Control document ICD-GPS-200, p.73):
-2*(X.V)/c [distance unit],
where X and V are the inertial sv state and velocity vectors and c is the speed
of light. Also for compatibility with broadcast GPS time, the IGS clocks use
the linear combination of phase-smoothed P1 and P2 pseudorange data to remove
the 1st order ionospheric delay, with no other delay calibrations applied.
SOFTWARE:
---------
The weighted average software used was originally developed by T. Springer
and G. Beutler in 1993. The GPS long arc orbit analysis software used here for
individual centre ephemeris evaluation was developed by Beutler et al. at the
Astronomical Institute of the University of Bern (AIUB). For more details on
the orbit combination and complete references for both software see:
Beutler G., Kouba J. and T. Springer, 1995, Combining the orbits of the IGS
Analysis Centers, Bulletin Geodesique, 69, pp 200-222.
Kouba J., Mireault Y. and F. Lahaye, 1995, 1994 IGS Orbit/Clock Combination
and Evaluation, Appendix I of the Analysis Coordinator Report, International
GPS Service for Geodynamics (IGS) 1994 Annual Report, pp. 70-94.
Kouba J. and Y. Mireault, 1996, IGS Analysis Coordinator Report,
International GPS Service for Geodynamics (IGS) 1995 Annual Report,
pp. 45-76.
Kouba J. and Y. Mireault, 1997, Analysis Coordinator Report,
International GPS Service for Geodynamics (IGS) 1996 Annual Report,
pp. 55-100.
PRODUCTS GENERATED:
-------------------
The resulting average ephemeris and clocks are output to daily files in SP3
format. The satellite accuracy codes displayed in the header are based on the
weighted RMS for each satellite over each daily arc. Note that each file
contains all the satellites that appear in any of the centre ephemeris files.
If a satellite or centre was excluded from combination, a note in the REMARKS
section of this report will identify the exclusion and the reason.
The resulting x and y earth rotation parameters (ERP) associated with the IGS
ephemeris files and their rates (xrt, yrt) are computed using a weighted average
of all available centres (as part of the separate SINEX combination since GPS
week 1051; weighted according to the orbit combination before that time).
Starting with GPS wk 0894, IGS LOD combinations were implemented in the
Final IGS solutions. AC LOD biases with respect to Bulletin A are estimated
using Bulletin A most recent 10 days, i.e. up to 5 days prior to the last
non-predicted day of Bulletin A. AC LOD biases are removed and the new AC
bias-free LODs are used to compute a weighted IGS LOD which in turn is
integrated into IGS UT1-UTC. The starting UT1-UTC value is chosen as Bulletin
A fifth day prior to its last non-predicted day. Both IGS LOD and UT1-UTC
values are printed in the IGS Final erp file.
The Final Orbit files generated and uploaded into CDDIS @ NASA/GSFC are:
igs1947[0-6].sp3 IGS GPS ephemeris files in SP3 format.
igs1947[0-6].clk IGS GPS satellite and station clocks in clock RINEX format.
igs1947[0-6].cls IGS GPS clock combination summary report.
igs19477.erp Earth Rotation Parameters (ERP) and their rates as well as
Universal Time (UT1-UTC) and Length Of Day (LOD) associated
with IGS ephemerides.
igs19477.sum Complete report.
REMARKS concerning the IGS Orbit Combination:
---------------------------------------------
1. The centres used in the clock combination are COD, EMR, ESA, GFZ, GRG, MIT, and
JPL. The other centres are excluded because of poorer consistency, they provide
broadcast clocks, or clock corrections are not provided (SIO). The clock
information not used is still compared to the combination for completeness. The
value of 999999.999999 microseconds, according to the SP3 format convention,
signifies that no clock solution is available and therefore must not be used.
In general, if an AC does not contribute to the terrestrial reference frame
(i.e. the SINEX combination), then any corresponding orbits & clocks
contributed from that AC should not be included with weight in this
combination. This is done to ensure a high level of consistency between the TRF
and the orbital frame. However, there is an exception for the clocks if the AC
is the reference center. In that case, only the clocks from that AC are
included with weight.
Starting week 1707:
cod = cof${wwww}[0-6].[clk,snx,sp3] & cod = cof${wwww}7.[erp,sum]
2. Rapid (IGR) orbits/clocks are included in the combination for statistics only.
Starting week 1582, a new orbit solution from CNES/GRGS (GRG) is included with
weight. GRG clocks are included with weight starting 12-Aug-2012 (GPS Week
1701, day 0, MJD 56151), after a procedural change to generate estimates in
the center-of-figure frame instead of the center-of-mass frame. GRG LOD
estimates are included for comparison only.
3. The following centre clock solutions, which provide broadcast clock
corrections, were excluded from the combination but kept in the combination
statistics:
-> Centre: NGS
4. The following clock solutions were excluded from the combination because they
were biasing the combined clock solutions (clock shifts/outliers) but were
kept for the RMS computation. Duplicate entries can arise due to separate
combination runs for the 30-s clocks ACs (listed first) and the 5-min clock
ACs (listed second).
Day | Centre | PRN/STA list
----+--------+---------------
0 | COD | AUCK CHTI TIXI AUCK CHTI TIXI
0 | EMR | GRAZ HERS GRAZ HERS YAKT
0 | ESA | CHUR MAL2 MCIL CHUR MAL2 MCIL
0 | GFZ | CHTI SYOG CHTI SYOG
0 | GRG | 19 19 FAA1 GLSV IRKJ MAL2 NAIN SYOG FAA1 GLSV MAL2
0 | GRG | NAIN SYOG
0 | MIT | AMC2 AMC2
1 | COD | TIXI PIMO TIXI
1 | EMR | 25 25 YAKT
1 | ESA | SAVO REUN
1 | GFZ | 13 FAA1 SAVO
1 | GRG | GLSV REUN SYOG DARW GLSV NKLG REUN SYOG
2 | COD | CHUR CRO1 IRKJ SUTV TIXI CHTI CHUR CRO1 IRKJ TIXI
2 | EMR | SYOG YAKT
2 | ESA | CHTI JFNG JFNG
2 | GFZ | CHUR LHAZ CHTI CHUR LHAZ SUTH
2 | GRG | CHTI GLSV ISPA KIT3 PIE1 SYOG GLSV ISPA KIT3 PIE1
2 | MIT | CRO1 PTBB SUTH CRO1 PTBB SUTH
3 | COD | NTUS SYOG TIXI NTUS SYOG TIXI
3 | EMR | GRAZ
3 | ESA | MAL2
3 | GFZ | FAA1 BAKO CHTI FAA1 SAVO SYOG
3 | GRG | 13 ADIS CHTI GLSV LHAZ SEYG SYOG ADIS CHTI GLSV LHAZ
3 | GRG | SEYG SYOG
3 | MIT | LHAZ LHAZ
4 | COD | SYOG TIXI ULAB SYOG TIXI
4 | EMR | 8 26 3 8 11 21 26 SYOG YAKT
4 | ESA | CHTI CHTI
4 | GFZ | FAA1 HRAO MDVJ AUCK FAA1 HRAO MDVJ
4 | GRG | CHTI GLSV JFNG KARR MAL2 NKLG OHI3 SYOG ADIS CHTI
4 | GRG | GLSV JFNG KARR MAL2 NKLG OHI3 OUS2 SYOG ULAB
5 | COD | TIXI MAL2 TIXI TLSE
5 | EMR | SYOG YAR2 SYOG YAKT YAR2
5 | ESA | FAA1 WTZR FAA1
5 | GFZ | FAA1 PDEL FAA1 GODE PDEL WTZR
5 | GRG | 15 13 15 KIT3 SYOG KIT3 MAL2 SYOG
6 | COD | LHAZ MAL2 SYOG TIXI LHAZ MAL2 SYOG TIXI
6 | EMR | 8 21 26 8 21 26 HERS HOB2 HERS YAKT
6 | ESA | HOB2 SYOG FAA1 SYOG
6 | GFZ | FAA1
6 | GRG | GLSV KIT3 KOUR LHAZ SYOG TUVA GLSV KIT3 KOUR LHAZ
6 | GRG | MAL2 SYOG TUVA
5. Starting on 22-Oct-2000 (GPS Week 1085-0; MJD=51839) all IGS clock products
are based on the new clock combination scheme which uses the clock RINEX
files as input if available, otherwise SP3 clocks are used. The AC clocks are
corrected for the radial offsets of their satellite orbits compared to the
combination.
6. The following table lists all maneuvered satellites for this week. The
solutions from COD and ESA, which modeled the maneuver, are used that day for
combination, if available. An associated accuracy code of 0 (unknown) is given
if only one AC is left (no redundancy). For the long arc evaluation the arc is
split into two parts at the given maneuver epoch.
PRN | Date | Ref. NANU
----+------------+----------
G22 | 2017_05_05 | 2017039
7. Starting 5-Nov-2006 (GPS Week 1400, day 0, MJD 54044) until 16-Apr-2011 (GPS
Week 1631, day 6, MJD 55667) all IGS products, including the IGS combined
orbits, are based on the IGS realization of the ITRF2005 reference frame
(IGS05). For more information see IGSMAIL #5447. The IGS05 frame is also the
basis for the homogeneously reprocessed IGS products from GPS Weeks 730 to 1459
(1994-2007); see IGSMAIL #6136.
Starting 17-Apr-2011 (GPS Week 1632, day 0, MJD 55668) all IGS products, are
based on the IGS realization of the ITRF2008 reference frame (IGS08). For more
information see IGSMAIL #6354.
Starting 07-Oct-2012 (GPS Week 1709, day 0, MJD 56207) all IGS products, are
based on the updated IGS08 frame (IGb08). For more information see IGSMAIL
#6663.
Starting 29-Jan-2017 (GPS Week 1934, day 0, MJD 57782) all IGS products,
are based on the IGS realization of the ITRF2014 reference frame (IGS14).
For more information see IGSMAIL #7399.
8. Small rotations were applied to all the AC orbit and ERP values in order to
align them to the current IGS reference frame. These RX, RY and RZ rotations
were estimated in the IGS SINEX combination process, performed by the IGS
Reference Frame Coordinator at the Institut Geographique National (IGN).
Starting on 19-Aug-2012 (GPS Week 1702; MJD=56158), ACs began contributing
products based on 1d SINEX integrations. As a result, the SINEX combinations
are now done daily instead of weekly, and the associated daily rotations are
applied here to the orbits and ERPs. The estimated 7 transformations, from
which only the 3 rotations are applied to the orbit and ERP values, are:
| | DX DY DZ RX RY RZ SCL
Centre | Day | [mm] [mm] [mm] [uas] [uas] [uas] [ppb]
-------+-----+---------------------------------------------------
COD | 0 | -.1 .3 -.1 7 8 -3 .11
EMR | 0 | 4.4 -3.0 18.4 8 -35 -21 .64
ESA | 0 | .0 -.3 -.1 -28 -1 4 .16
GFZ | 0 | -.5 .2 -.5 6 -17 -4 .29
GRG | 0 | 1.8 -7.4 .2 72 0 -4 .21
JPL | 0 | 11.5 -3.1 11.0 19 -14 53 .63
MIT | 0 | -.9 -12.0 11.9 6 27 -3 .58
NGS | 0 | .4 -4.0 12.5 24 -18 -31 .34
SIO | 0 | .7 -6.3 9.3 -4 -13 -20 .41
COD | 1 | -.3 .5 .0 8 8 1 .05
EMR | 1 | 2.8 -5.6 19.5 1 35 7 .57
ESA | 1 | -.2 -.0 -.2 -23 23 -10 .07
GFZ | 1 | -.4 .1 -.4 2 4 -6 .22
GRG | 1 | 5.5 -7.9 11.3 79 -11 47 -.08
JPL | 1 | 2.3 -1.3 4.0 -11 19 47 .57
MIT | 1 | -3.0 -10.6 11.7 8 45 -23 .52
NGS | 1 | -6.9 -1.2 19.6 23 -10 -12 .11
SIO | 1 | .5 -5.4 10.1 4 20 -20 .27
COD | 2 | -.1 -.0 -.3 2 4 3 .06
EMR | 2 | 5.2 -8.9 23.6 -4 20 -8 .42
ESA | 2 | .2 -.2 -.5 -17 12 4 .29
GFZ | 2 | -.2 .2 -.6 -4 -9 -10 .33
GRG | 2 | .3 -1.4 1.3 65 -30 34 .10
JPL | 2 | 5.6 -2.8 9.9 -4 -19 39 .55
MIT | 2 | -1.2 -10.3 15.7 10 17 -20 .47
NGS | 2 | 2.6 -7.7 20.4 31 -7 -8 .19
SIO | 2 | .5 -5.7 27.3 -10 20 -40 .41
COD | 3 | .1 .3 -.1 9 3 -4 .09
EMR | 3 | 4.7 -7.1 16.8 10 13 -17 .52
ESA | 3 | -.1 .0 .4 -8 9 4 .25
GFZ | 3 | -.5 .2 -.5 4 -2 -6 .34
GRG | 3 | 4.2 -4.6 -3.9 56 3 11 .19
JPL | 3 | 9.4 -5.8 11.4 10 -16 45 .61
MIT | 3 | 1.1 -11.8 18.4 -4 22 -22 .42
NGS | 3 | 2.5 -5.3 29.0 5 -39 -31 .28
SIO | 3 | 4.2 -5.9 17.1 -4 15 -16 .34
COD | 4 | -.5 .4 .1 3 18 0 .11
EMR | 4 | 8.1 -13.3 18.1 -4 30 4 .50
ESA | 4 | .3 -.2 .0 -24 24 7 .16
GFZ | 4 | -.3 .3 -1.0 -1 -12 -5 .30
GRG | 4 | 4.2 -1.3 10.3 75 -32 21 .07
JPL | 4 | 4.5 -6.0 11.8 9 -34 20 .50
MIT | 4 | 2.5 -11.3 14.4 7 29 -21 .42
NGS | 4 | 2.9 -4.5 28.2 16 -43 -23 .29
SIO | 4 | 3.7 -3.8 16.6 -1 -13 -13 .42
COD | 5 | -.2 .5 .1 6 5 -5 .07
EMR | 5 | 1.5 -13.0 21.3 3 14 -43 .30
ESA | 5 | .4 -.2 -.3 -24 18 11 .16
GFZ | 5 | -.1 .5 -.9 11 -17 -12 .31
GRG | 5 | -1.7 -3.9 -7.8 59 -10 23 .09
JPL | 5 | 5.5 -7.2 6.8 2 2 64 .62
MIT | 5 | .4 -10.2 14.7 4 23 -8 .36
NGS | 5 | -.8 -4.9 16.4 4 -20 -32 .04
SIO | 5 | 1.1 -6.8 20.5 -9 4 -25 .38
COD | 6 | -.4 .4 .3 11 11 -3 -.09
EMR | 6 | -.0 -10.2 9.9 17 39 -10 .36
ESA | 6 | -.1 -.5 -.3 -27 23 11 .09
GFZ | 6 | -.5 .1 -.5 1 -12 -3 .15
GRG | 6 | 7.4 -5.0 -10.5 60 -29 35 .06
JPL | 6 | 2.9 -3.3 2.4 6 3 31 .68
MIT | 6 | 2.7 -9.8 14.3 -5 16 -22 .27
NGS | 6 | -1.6 -6.2 13.8 11 -15 -21 .05
SIO | 6 | 2.0 -7.4 22.9 -2 1 -20 .27
9. As inidicated in the previous remarks, the IGS final orbits are aligned to the
IGS reference frame by pre-aligning each AC orbit with the 3 corresponding
SINEX rotations. This approach began 27-Feb-2000 (GPS Week 1051-0; MJD 51601).
Starting sometime prior to 19-Aug-2012 (GPS Week 1702; MJD=56158), the orbit
combination procedures used an incorrect sign convention to apply the SINEX
RX and RY values to the AC orbits.
Also starting 27-Feb-2000 (GPS Week 1051-0; MJD 51601), the AC orbits were
pre-aligned using rotations derived from differences between AC and IGS
combined x and y polar motion. These ERP rotations were intended to
approximate day-to-day variations of the AC orbital frames when only weekly
averaged AC TRF rotations were available (For more details, see IGSMAIL
#2750). With the change to daily SINEX integrations starting 19-Aug-2012, the
ERP rotations are no longer needed/applied.
10. Starting 5-Nov-2006 (GPS Week 1400, day 0, MJD 54044) until 16-Apr-2011 (GPS
Week 1631, day 6, MJD 55667) the absolute antenna model is introduced (IGSMAIL
#5438). The antenna phase center offsets and phase center variations are given
in the file:
ftp://igs.org/igscb/station/general/igs05.atx
These antenna calibrations are also used in the homogeneously reprocessed IGS
products from GPS Weeks 730 to 1459 (1994-2007); see IGSMAIL #6136.
Starting 17-Apr-2011 (GPS Week 1632, day 0, MJD 55668) the absolute antenna
model is updated (IGSMAIL #6255 & #6374) as given in the file:
ftp://igs.org/igscb/station/general/igs08.atx
The JPL solution did not use IGS08/igs08.atx until GPS Week 1649, which caused
their RMS clock residuals to be higher during that period than for the other
centres; from GPS Week 1632 through 1648 the JPL solution is excluded from the
weekly SINEX combination.
Starting 29-Jan-2017 (GPS Week 1934, day 0, MJD 57782) the absolute antenna
model file has been updated to igs14.atx to be consistent with IGS14.
See IGSMAIL #7399 for more information
ftp://igs.org/pub/station/general/igs14.atx
ORBIT COMBINATION AND EVALUATION STATISTICS:
--------------------------------------------
Most combination statistics are with respect to the combined orbits and
consist of seven parts. The first, Table 1, summarizes all statistics for
the week. It contains means and standard deviations over the week of
satellite ephemeris and clock correction transformation parameters for
each centre (Table 1.1947.a). It also displays the computed satellite
position sigmas for the combined orbits (Table 1.1947.b).
The second part, Table 2, contains the complete ephemeris and clock
correction transformation parameters (includes both the apriori and a
posteriori values) for each centre and each day (Tables 2.1947.[0-6]).
The third part, Table 3, contains two types of daily RMS for each satellite
and centre, along with the computed satellite position sigmas for the
combined orbits (Tables 3.1947.[0-6]). The first type of satellite RMS is
based on orbit combination and the second RMS type is a result of the 7-day
arc evaluation of each centre ephemerides. The fourth part, Table 4, is a
weekly summary of the daily precise navigation summaries for centres
providing both orbit and clock solutions. It contains weekly station RMS
w.r.t. the initial coordinates for the Latitude, Longitude and Height
components for up to three IGS stations (Table 4.1307). The fifth part,
Table 5, is similar to Table 4 and contains daily precise navigation
statistics (Tables 5.1947.0-6). The sixth part, Table 6, is a weekly
summary of daily ERP combination statistics. The seventh part, Table 7,
contains the daily ERP statistics. But this is not the IGS official ERP
combination products (which come from the accompanying SINEX combination)
but provided to check combination consistency, etc.
In Tables 1-3, the most important statistic which is meaningful for intra
centre/satellite analysis is labeled WRMS. It is a weighted RMS where
normalized weights are based on accuracy codes given in the SP3 files, and
should not be affected by downweighted/problem satellites when acknowledged
by individual centres in their SP3 file.
Table 1: Week 1947 summary. (Apr 30, 2017 - May 06, 2017)
Table 1.1947.a GPS week: 1947 MJD: 57873.000-57879.000
Mean and standard deviations of transformation parameters to the
combined IGS orbit.
WRMS - orbit RMS weighted by the SP3 header accuracy codes.
STA - Mean number of stations in the daily solutions.
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 270| 0 0 -7 2 6 -2 .02 10 9 | -752 208 10 101
| 0 0 1 16 15 14 .01 | 121 248
emr 79| 0 -1 3 3 -11 -15 .26 15 15 | 23267 226 17 146
| 1 1 1 20 10 12 .03 | 56445 748
esa 150| 0 0 -1 -1 17 7 -.03 11 11 | -571 -722 8 156
| 0 0 1 7 14 10 .01 | 602 1356
gfz 202| -1 0 4 2 3 -2 .02 10 10 | -233 -21 10 124
| 0 0 1 20 8 17 .02 | 470 699
grg 106| 0 0 -8 16 -6 12 -.27 14 13 | 1137 -3247 13 164
| 0 0 4 11 21 9 .04 | 3035 8662
igr n/a| 0 0 -3 3 3 -4 .04 4 4 | 17990 349 12 74
| 0 0 1 14 10 13 .02 | 969 708
jpl 80| 0 0 0 4 -7 41 .25 12 12 | 1064 200 41 212
| 1 1 0 20 9 12 .02 | 638 755
mit 349| 0 0 3 4 -6 6 .01 11 10 | -490 -302 38 298
| 0 0 0 37 15 8 .02 | 328 354
ngs 208| 0 0 6 -7 -5 6 -.03 9 8 | -712 162 905 2169
| 0 0 2 26 8 12 .03 | 133 296
sio 341| 0 2 -2 -6 -11 -12 .02 16 15 | --- --- --- ---
| 1 0 2 32 20 30 .06 | --- ---
Table 1.1947.b GPS week : 1947 MJD: 57873.000-57879.000
Satellite position sigmas for the combined orbits
(coded in the IGS SP3 orbit files).
"E" flags eclipsing satellites.
Units: mm.
Day of GPS week
PRN | 0 1 2 3 4 5 6 | Remarks
------+------------------------------------+------------------------------------------
1 | 3 3 4 4 4 3 3 |
2 | 5 5 5 5 5 5 5 |
3 | 3 3 3 3 3 3 3 |
4 | 0 0 0 0 0 0 0 |
5 | 5 5 5 5 5 4 5 |
6 | 3 3 3 3 3 3 3 |
7 | 4 4 4 4 4 4 4 |
8 | 5 5 5 5 6 4 5 |
9 | 5 5 5 6 5 4 5 |
10 | 3 4 3 3 3 3 4 |
11 | 4 4 4 4 4 4 4 |
12 | 5 5 5 5 5 5 5 |
13 | 7 5 5 5 4 5 5 |
14 | 4 4 4 5 4 4 4 |
15 | 4 5 4 5 5 8 6 |
16 | 6 5 5 5 5 5 5 |
17 | 5 5 5 4 4 4 5 |
18 | 6 5 5 5 5 5 5 |
19 | 5 5 5 5 5 5 5 |
20 | 5 5 4 5 4 4 4 |
21 | 5 5 5 5 5 5 5 |
22 | 4 4 5 5 4 0 4 |
23 | 5 5 6 5 6 5 5 |
24 | 4 3 3 3 3 3 3 |
25 | 4 4 4 3 3 3 3 |
26 | 4 4 4 3 3 4 4 |
27 | 5 5 5 5 5 5 4 |
28 | 4 4 4 4 5 4 4 |
29 | 6 6 5 6 6 6 6 |
30 | 3 3 3 3 4 4 3 |
31 | 4 4 5 5 5 5 5 |
32 | 5 5 4 4 4 5 5 |
Table 2: Daily transformation of each centre to the combined IGS orbit and
clocks for each day of the week. The transformation displayed is the
result of the combination after the AC orbits were pre-aligned using
the SINEX rotations from above. Prior to Wk 1702, AC ERP rotations
used in the pre-alignment were also displayed.
WRMS - RMS weighted by the centres SP3 header accuracy codes.
STA - Number of stations in the daily solutions.
Table 2.1947.0 GPS week: 1947 Day: 0 MJD: 57873.000
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 270| 0 0 -7 -18 26 0 .00 10 10 | -826 592 12 108
emr 80| 1 0 4 8 -16 -16 .27 15 14 | 151265 518 21 150
esa 150| 0 0 -3 -8 0 -7 -.03 11 11 | -65 -1750 7 140
gfz 199| -2 0 5 22 5 6 .01 11 10 | -30 -613 10 101
grg 99| 0 0 -2 31 -15 6 -.32 13 12 | -65 1 13 125
igr n/a| 0 0 -2 5 5 -14 .03 5 5 | 16698 54 12 66
jpl 80| 0 2 0 24 -8 42 .25 12 12 | 430 -130 45 217
mit 350| 0 -1 3 -27 0 16 .03 11 10 | -673 -415 35 284
ngs 211| 0 0 0 0 -8 -13 .03 9 8 | -872 656 979 2170
sio 344| -2 2 0 -18 -6 22 .11 17 17 | --- --- --- ---
Table 2.1947.1 GPS week: 1947 Day: 1 MJD: 57874.000
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 267| 0 0 -10 -10 4 -11 .02 9 8 | -648 19 12 101
emr 80| 1 -1 4 -3 2 -24 .25 16 16 | 676 1215 20 139
esa 150| 0 0 -3 -5 9 3 -.02 11 11 | -1553 1180 7 160
gfz 204| -1 0 5 23 15 -32 .03 10 9 | -1014 1167 10 127
grg 106| 1 0 -2 22 -14 25 -.26 13 12 | -230 128 12 153
igr n/a| 0 0 -3 -3 -4 -16 .02 4 4 | 16488 1632 12 62
jpl 80| -1 -1 0 -17 -6 15 .26 11 11 | 0 1402 39 206
mit 350| 0 0 2 24 -5 3 .03 11 10 | -808 -221 44 330
ngs 208| -1 0 7 -38 -9 26 -.05 9 8 | -643 16 1337 2431
sio 348| -1 3 -3 28 -27 3 .05 16 16 | --- --- --- ---
Table 2.1947.2 GPS week: 1947 Day: 2 MJD: 57875.000
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 272| 0 0 -8 18 0 -16 .02 10 9 | -605 -36 10 99
emr 77| 2 0 3 3 -2 -17 .29 14 14 | 2334 -425 19 153
esa 150| 0 0 0 1 39 18 -.01 11 12 | -815 41 9 160
gfz 205| 0 1 4 20 12 -9 .01 10 9 | 244 -594 11 128
grg 110| 0 0 -7 27 8 13 -.27 14 13 | 267 -364 14 167
igr n/a| 0 0 -2 1 11 -17 .03 4 4 | 18291 -70 12 73
jpl 80| -1 1 0 4 -6 46 .25 12 12 | 1537 -267 42 203
mit 349| 0 0 2 4 -33 11 -.01 11 10 | 16 -804 38 307
ngs 206| -1 0 6 -49 -12 14 -.05 8 7 | -517 -173 750 2052
sio 334| -1 1 -5 -5 -17 -29 .07 17 16 | --- --- --- ---
Table 2.1947.3 GPS week: 1947 Day: 3 MJD: 57876.000
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 272| 0 0 -8 13 -19 16 .04 10 9 | -689 -46 10 96
emr 79| 1 -2 2 9 -21 -26 .26 15 15 | 2378 73 17 154
esa 150| 1 0 -2 12 10 6 -.03 11 12 | -380 -1306 9 159
gfz 201| 0 0 6 -3 3 -4 .04 11 10 | -320 215 12 132
grg 111| 0 0 -10 16 -16 22 -.31 15 13 | 10 139 13 166
igr n/a| 0 0 -4 26 22 -5 .03 4 4 | 18508 -27 13 88
jpl 80| -1 1 0 28 0 49 .24 12 12 | 1681 -246 41 224
mit 350| 0 0 3 -30 13 0 .00 10 9 | -92 -327 36 282
ngs 209| -1 0 8 13 1 0 -.07 9 8 | -661 -67 664 2054
sio 347| -1 1 -3 -15 23 -25 .01 17 16 | --- --- --- ---
Table 2.1947.4 GPS week: 1947 Day: 4 MJD: 57877.000
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 270| 0 0 -8 0 13 -5 .03 10 9 | -780 260 10 105
emr 80| 1 -3 3 -37 -13 -16 .28 14 14 | 2656 -590 16 176
esa 150| 0 0 -1 -1 33 -1 -.01 11 11 | -133 -1674 8 154
gfz 202| -1 0 4 -29 -4 9 .03 10 10 | 343 -691 10 174
grg 108| 0 0 -6 -3 -33 6 -.28 13 12 | 8008 -22883 13 174
igr n/a| -1 0 -4 -13 -2 -5 .07 4 4 | 18784 -266 14 74
jpl 80| 0 0 0 -26 -25 34 .28 11 11 | 1615 -504 39 205
mit 350| 0 0 2 49 -20 13 .00 11 10 | -793 -418 36 273
ngs 208| 0 0 8 -5 6 5 -.04 9 8 | -640 7 687 1884
sio 343| 0 2 -4 45 -40 4 .03 16 14 | --- --- --- ---
Table 2.1947.5 GPS week: 1947 Day: 5 MJD: 57878.000
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 271| 0 0 -4 23 20 -19 .04 10 10 | -967 457 11 91
emr 80| 0 -3 2 30 -22 -17 .21 14 14 | 1925 -354 15 134
esa 150| 0 0 -1 -5 20 13 -.03 10 10 | 48 -2280 9 164
gfz 201| -1 0 1 1 -5 -5 -.01 9 8 | -297 -178 9 97
grg 96| 1 0 -12 11 31 0 -.21 18 15 | 212 -235 14 177
igr n/a| 0 0 -3 19 -10 17 .03 4 4 | 18469 61 13 81
jpl 80| 1 -1 0 11 -6 50 .23 13 13 | 1051 -9 44 202
mit 350| 0 -1 2 -37 -1 8 -.01 10 9 | -555 -318 40 318
ngs 208| 0 0 6 21 -14 10 -.03 9 8 | -872 391 787 2044
sio 336| 0 2 -1 -41 -7 3 -.06 14 14 | --- --- --- ---
Table 2.1947.6 GPS week: 1947 Day: 6 MJD: 57879.000
CENT STA| DX DY DZ RX RY RZ SCL RMS WRMS| TOFT TDRFT SDEV RMS
| [mm] [mm] [mm] [uas] [uas] [uas] [ppb] [mm] [mm]| [ps] [ps/d] [ps] [ps]
--------+----------------------------------------------------+------------------------------
cod 274| 0 0 -7 -7 1 16 .01 10 9 | -754 215 10 108
emr 79| -1 0 5 14 -5 10 .29 14 14 | 1638 1145 16 120
esa 150| 0 0 -1 -6 8 20 -.04 11 11 | -1105 733 7 156
gfz 203| 0 0 5 -15 -2 20 .01 11 11 | -560 543 11 115
grg 113| 1 0 -14 13 -6 10 -.27 15 15 | -238 479 13 188
igr n/a| 0 0 -1 -11 4 7 .04 4 4 | 18694 1059 12 78
jpl 80| -2 1 2 6 4 51 .23 11 11 | 1140 1157 39 230
mit 350| 0 0 4 51 1 -8 .00 11 9 | -529 383 37 294
ngs 208| 0 0 4 3 2 4 -.00 8 7 | -782 304 1132 2554
sio 339| 1 3 -1 -35 -4 -68 -.05 12 11 | --- --- --- ---
Table 3: Daily fit for each satellite and each centre resulting from weighted
average combination and from long arc orbit dynamics (7-day). The
first IGS column gives resulting satellite accuracy measures found in
SP3 header. The last IGS column gives the RMS fit of the IGS orbit
when processed through the 7-day arc evaluation.
"E" stands for eclipsing satellites (earth).
"M" stands for eclipsing satellites (moon).
"X" stands for excluded from the statistics but included in IGS orbit.
"T" stands for Total long arc orbit RMS for all satellites.
"NE" stands for long arc orbit RMS for Non-Eclipsing satellites only.
"MEDI" stands for median of the centre's satellite RMS.
"MD"
Units: mm.
Table 3.1947.0 GPS week: 1947 Day: 0 MJD: 57873.000
Weighted Average Orbit Dynamics (7 days)
PRN | cod emr esa gfz grg igr jpl mit ngs sio IGS | cod emr esa gfz grg igr jpl mit ngs sio IGS
------+--------------------------------------------------------+---------------------------------------------------------
1 | 7 8 8 7 8 4 8 10 7 15 3 | 2 24 2 1 1 2 2 2 2 3 2
2 | 8 9 12 13 11 4 12 12 9 21 4 | 2 3 1 3 2 1 2 2 2 5 1
3 | 8 9 7 6 8 5 9 10 7 12 3 | 2 12 1 2 1 2 2 3 3 3 2
X4 | 4 --- --- --- --- 25 --- --- --- --- 0 | 3 --- --- --- --- 3 --- --- --- --- 3
5 | 13 9 13 14 11 4 11 13 11 21 5 | 2 2 2 3 3 2 2 2 2 4 2
6 | 6 6 12 8 7 3 11 9 4 14 3 | 2 2 1 1 2 1 2 2 2 4 1
7 | 10 12 9 12 9 4 10 11 9 19 4 | 2 3 3 4 2 3 2 4 4 7 3
8E | 12 8 18 8 13 4 11 6 9 15 4 | 2 6 3 2 3 2 3 3 3 5 2
9E | 10 14 19 6 17 4 11 6 8 14 4 | 2 6 4 3 3 3 4 4 4 7 3
10 | 7 8 6 9 5 3 7 7 6 19 3 | 2 2 1 2 1 1 2 2 2 5 1
11 | 8 12 15 8 8 4 11 10 6 11 3 | 2 3 2 2 2 2 3 3 3 3 2
12 | 12 18 9 13 15 5 16 14 11 17 5 | 3 3 3 2 2 2 2 3 2 5 2
13E | 9 38 9 12 21 5 10 9 15 16 6 | 3 14 4 5 5 3 4 4 6 5 3
14E | 10 14 4 7 10 4 11 7 9 18 3 | 2 4 2 2 3 2 3 3 3 5 2
15E | 9 19 7 14 10 5 20 8 7 16 4 | 3 8 3 4 5 3 3 4 3 5 3
16 | 11 26 6 14 18 5 18 13 12 20 5 | 5 4 3 3 2 2 2 3 3 3 2
17 | 20 14 9 10 14 10 19 11 7 15 5 | 6 3 3 3 4 3 4 3 3 4 3
18 | 12 19 10 15 10 5 15 15 13 22 5 | 2 3 1 2 1 1 2 4 3 5 2
19 | 13 14 10 8 20 5 13 10 9 15 4 | 4 3 2 3 2 2 2 3 3 4 2
20 | 10 8 12 14 10 4 11 19 11 20 5 | 3 3 2 2 2 2 2 4 2 3 2
21 | 12 10 12 14 10 5 10 9 10 22 4 | 2 3 2 4 1 2 1 2 3 3 2
22 | 10 9 10 11 13 4 10 10 12 17 4 | 2 3 2 3 2 2 2 4 2 4 2
23E | 7 22 6 12 16 4 15 12 9 17 4 | 2 5 3 3 4 2 3 5 3 6 3
X24 | 9 --- 8 10 7 4 11 11 9 13 4 | 3 --- 2 2 2 2 2 3 2 5 2
25 | 10 11 7 9 11 6 11 13 8 20 4 | 3 6 4 2 2 2 3 2 2 5 2
26 | 8 11 11 8 12 3 11 15 7 17 4 | 3 4 3 2 2 2 3 3 3 3 2
27E | 11 17 17 9 15 3 10 8 9 16 5 | 6 14 3 2 2 2 4 4 3 5 3
28 | 10 14 10 8 13 5 13 9 9 22 4 | 3 6 2 3 3 2 2 2 3 5 2
29 | 9 25 6 16 18 7 16 16 12 14 5 | 3 4 2 3 3 3 2 3 3 2 2
30 | 8 7 7 6 10 3 9 6 8 15 3 | 3 3 2 2 3 2 3 2 3 5 2
31 | 10 14 9 9 9 4 11 11 11 20 4 | 2 4 2 2 2 2 2 2 2 6 2
32E | 12 12 19 7 11 5 9 7 7 16 4 | 3 5 4 4 4 3 4 5 3 7 3
------+--------------------------------------------------------+---------------------------------------------------------
RMS | 10 15 11 11 13 5 12 11 9 17 |T 2 5 2 2 2 2 2 3 2 4 2
WRMS | 10 14 11 10 12 5 12 10 8 17 |NE 2 4 2 2 1 1 2 2 2 4 1
MEDI | 10 12 9 9 11 4 11 10 9 17 |MD 2 4 2 2 2 2 2 3 3 5 2
Table 3.1947.1 GPS week: 1947 Day: 1 MJD: 57874.000
Weighted Average Orbit Dynamics (7 days)
PRN | cod emr esa gfz grg igr jpl mit ngs sio IGS | cod emr esa gfz grg igr jpl mit ngs sio IGS
------+--------------------------------------------------------+---------------------------------------------------------
1 | 7 9 8 9 6 4 9 9 5 12 3 | 3 25 3 3 2 3 3 4 3 3 3
2 | 8 11 12 13 14 5 14 13 9 21 4 | 4 4 3 6 4 3 3 4 5 5 4
3 | 7 9 8 5 5 3 15 8 7 12 3 | 5 13 4 5 3 4 4 7 5 3 4
X4 | 6 --- --- --- --- 20 --- --- --- --- 0 | 7 --- --- --- --- 5 --- --- --- --- 7
5 | 11 11 13 11 11 3 10 13 11 19 4 | 5 5 2 3 3 3 3 5 4 5 3
6 | 9 10 8 7 6 3 10 7 7 12 3 | 5 3 4 4 4 3 3 5 4 4 4
7 | 8 10 10 11 10 6 9 9 8 20 4 | 2 3 3 4 3 3 3 4 4 7 3
8E | 10 14 20 9 14 3 8 5 8 15 4 | 5 9 6 6 3 4 5 6 4 5 5
9E | 12 15 18 9 14 9 13 10 8 13 4 | 3 7 5 4 4 5 5 7 5 7 4
10 | 5 8 8 8 9 4 6 9 7 18 3 | 4 6 3 3 3 3 3 5 5 5 4
11 | 8 14 16 12 8 4 12 12 9 12 4 | 3 6 3 4 2 3 4 7 3 4 3
12 | 8 21 8 13 15 4 13 14 10 19 5 | 3 3 3 3 3 2 3 3 2 5 2
13E | 8 29 9 9 11 4 9 10 9 13 4 | 4 13 5 6 6 4 5 5 5 5 4
14E | 7 10 6 6 14 3 11 11 8 14 3 | 4 4 3 4 3 3 3 3 3 5 3
15E | 9 28 7 12 16 5 16 12 10 16 5 | 5 10 6 6 7 5 6 8 5 6 5
16 | 8 24 6 12 15 4 15 12 10 16 5 | 6 6 4 4 3 3 2 4 4 3 3
17E | 10 14 6 9 20 8 17 10 11 13 4 | 6 4 3 4 6 4 3 7 4 5 4
18 | 11 19 10 13 11 4 11 16 11 20 5 | 5 7 3 5 3 4 4 6 6 4 4
19 | 9 14 5 9 22 4 12 10 11 16 4 | 4 3 4 5 3 3 3 5 4 5 4
20 | 8 11 11 13 12 3 9 14 11 20 4 | 5 6 5 4 3 4 4 5 4 4 4
21 | 10 11 12 13 13 3 11 11 11 21 4 | 5 6 4 5 2 5 4 5 6 4 4
22 | 10 9 12 10 10 4 6 11 10 17 4 | 4 4 4 4 2 4 3 7 4 4 4
23E | 10 20 9 12 15 6 13 14 10 17 5 | 4 6 5 5 5 4 5 9 5 6 5
24 | 7 9 8 8 10 3 10 7 7 12 3 | 4 9999 4 3 4 3 3 4 3 7 3
25 | 8 11 8 8 12 4 11 11 8 16 3 | 3 6 4 3 3 3 4 5 4 5 4
26 | 6 11 11 8 10 4 8 12 8 11 3 | 5 5 4 3 3 4 4 6 4 4 4
27E | 9 29 20 6 13 4 9 7 7 14 5 | 6 13 7 5 3 4 5 6 5 5 5
28 | 8 12 8 9 13 4 9 11 8 19 4 | 5 6 4 4 3 3 4 4 3 5 3
29E | 17 23 6 13 21 4 19 12 12 12 5 | 5 8 4 5 7 4 5 7 7 4 5
30 | 7 8 6 8 10 3 12 6 4 12 3 | 4 3 4 3 3 3 3 3 4 5 3
31 | 10 14 9 10 10 3 11 11 9 18 4 | 6 5 5 4 2 3 3 4 3 6 4
32E | 7 10 19 4 18 3 9 10 6 16 4 | 3 5 4 4 4 3 4 5 3 7 3
------+--------------------------------------------------------+---------------------------------------------------------
RMS | 9 16 11 10 13 4 11 11 9 16 |T 4 6 4 4 3 3 3 5 4 4 3
WRMS | 8 16 11 9 12 4 11 10 8 16 |NE 4 6 3 3 2 3 3 4 4 4 3
MEDI | 8 11 9 9 12 4 11 11 9 16 |MD 4 6 4 4 3 3 4 5 4 5 4
Table 3.1947.2 GPS week: 1947 Day: 2 MJD: 57875.000
Weighted Average Orbit Dynamics (7 days)
PRN | cod emr esa gfz grg igr jpl mit ngs sio IGS | cod emr esa gfz grg igr jpl mit ngs sio IGS
------+--------------------------------------------------------+---------------------------------------------------------
X1 | 8 --- 8 7 8 3 9 10 9 12 3 | 3 --- 2 3 2 2 3 4 3 2 2
2 | 10 12 10 13 12 3 11 14 9 22 4 | 4 2 3 6 3 3 3 4 4 5 3
3 | 6 11 6 6 12 2 8 8 7 12 3 | 4 12 3 4 3 3 3 7 4 2 4
X4 | 5 --- --- --- --- 28 --- --- --- --- 0 | 8 --- --- --- --- 4 --- --- --- --- 8
5 | 10 10 13 11 9 4 12 14 10 19 4 | 5 5 2 5 2 3 3 5 4 5 4
6 | 8 8 8 6 7 3 9 9 4 15 3 | 4 4 4 3 3 4 3 5 4 5 3
7 | 9 12 9 11 8 4 10 10 8 20 4 | 2 3 2 3 2 2 3 5 3 7 2
8E | 15 19 19 7 15 4 11 10 7 17 5 | 5 8 6 5 4 4 4 5 4 5 4
9E | 15 12 19 7 18 5 12 8 7 13 5 | 3 6 5 3 4 4 5 7 5 5 4
10 | 6 10 8 8 8 4 8 10 6 18 3 | 4 6 3 3 3 3 3 5 4 4 3
11 | 9 14 15 9 9 3 10 14 8 11 4 | 3 5 3 3 2 3 4 6 3 3 3
12 | 9 23 9 13 13 3 14 12 7 18 4 | 3 4 3 4 3 2 3 4 3 5 3
13E | 10 19 10 10 16 4 11 15 10 14 4 | 4 9 4 6 5 4 5 5 4 4 4
14E | 8 10 6 8 17 4 10 10 9 13 3 | 4 4 4 4 3 3 3 3 3 4 3
15E | 7 15 6 12 13 4 17 16 7 18 4 | 5 9 5 5 5 5 5 7 5 5 5
16 | 9 20 6 14 17 2 18 11 8 17 4 | 5 5 3 3 3 3 3 3 3 4 3
17E | 9 16 6 8 23 3 17 11 8 13 4 | 4 4 4 4 7 4 4 7 4 5 4
18 | 8 18 11 12 12 4 13 15 9 22 5 | 5 6 3 5 3 4 4 6 5 4 4
19 | 10 17 7 8 21 4 15 11 8 16 4 | 3 4 3 5 3 3 3 5 4 5 3
20 | 6 11 11 12 12 3 11 11 9 18 4 | 4 6 4 4 3 3 5 4 3 4 4
21 | 10 10 12 13 13 5 11 11 9 21 4 | 5 6 4 5 3 4 4 6 4 3 4
22 | 10 9 10 12 17 4 11 11 10 15 4 | 4 4 3 4 2 3 2 6 4 3 3
23E | 10 21 7 14 25 5 15 16 10 17 5 | 4 7 5 5 6 4 4 9 5 5 5
24 | 8 11 9 6 9 4 10 7 5 14 3 | 3 9999 4 4 3 3 3 4 3 8 3
25 | 11 9 7 7 8 4 9 8 7 15 3 | 4 5 4 3 2 3 4 4 4 6 3
26 | 8 11 11 9 12 3 8 11 7 13 3 | 5 5 4 4 3 4 4 5 3 4 4
27E | 13 15 19 7 12 4 10 10 10 13 4 | 5 8 6 5 3 4 5 6 5 5 4
28 | 5 16 8 8 11 4 11 10 8 19 4 | 4 5 4 4 3 3 4 3 2 4 3
29E | 15 24 6 15 14 5 14 13 9 14 5 | 5 7 4 5 5 4 5 6 6 4 5
30 | 6 10 8 7 10 4 8 6 6 18 3 | 4 4 4 3 3 3 4 3 3 5 3
31 | 11 14 7 13 13 5 11 10 9 16 4 | 6 5 4 4 2 3 3 5 3 5 3
32E | 7 9 19 7 15 4 9 8 7 14 4 | 3 5 3 4 3 3 4 3 3 6 3
------+--------------------------------------------------------+---------------------------------------------------------
RMS | 10 14 11 10 14 4 12 11 8 16 |T 4 5 3 4 3 3 3 5 3 4 3
WRMS | 9 14 12 9 13 4 12 10 7 16 |NE 4 5 3 3 2 3 3 4 3 4 3
MEDI | 9 12 9 9 12 4 11 11 8 16 |MD 4 5 4 4 3 3 4 5 4 5 3
Table 3.1947.3 GPS week: 1947 Day: 3 MJD: 57876.000
Weighted Average Orbit Dynamics (7 days)
PRN | cod emr esa gfz grg igr jpl mit ngs sio IGS | cod emr esa gfz grg igr jpl mit ngs sio IGS
------+--------------------------------------------------------+---------------------------------------------------------
1 | 6 12 7 9 11 4 8 10 8 14 3 | 2 9999 2 2 1 2 2 3 2 2 1
2 | 12 14 11 12 13 6 13 14 10 22 5 | 3 3 2 4 1 2 2 4 3 5 2
X3 | 6 --- 7 8 11 3 11 7 6 10 3 | 2 --- 2 2 2 2 2 4 2 3 2
X4 | 5 --- --- --- --- 23 --- --- --- --- 0 | 6 --- --- --- --- 3 --- --- --- --- 6
5 | 9 12 12 11 13 4 11 13 11 22 4 | 3 4 2 4 2 2 2 4 3 4 3
6 | 6 9 8 7 5 4 9 8 5 16 3 | 2 3 2 2 2 2 2 4 3 5 2
7 | 8 12 8 11 12 4 10 11 9 22 4 | 3 3 2 4 3 2 3 5 3 7 3
8E | 13 15 18 6 13 4 9 7 8 13 4 | 3 5 4 3 4 3 3 6 4 5 3
9E | 14 10 20 10 28 5 11 9 6 12 5 | 2 5 4 3 6 2 4 5 4 5 3
10 | 4 8 7 7 8 3 8 9 6 18 3 | 2 5 3 2 2 1 2 3 2 5 2
11 | 7 12 15 9 12 4 10 11 8 13 4 | 2 3 2 2 2 2 2 4 3 2 2
12 | 9 20 9 13 12 5 16 10 10 19 4 | 3 4 4 3 2 3 2 4 4 5 3
13E | 8 17 8 11 16 5 9 9 12 15 4 | 3 7 4 4 3 3 4 4 4 7 3
X14E | 10 10 7 --- 12 6 10 11 11 --- 4 | 3 4 3 --- 4 2 3 4 3 --- 2
15E | 9 23 7 13 14 4 18 11 11 16 5 | 3 10 3 3 4 3 4 4 4 5 3
16 | 11 23 7 13 12 3 14 11 10 19 5 | 4 5 2 3 2 2 2 4 2 5 2
17E | 9 14 6 9 22 4 18 8 9 14 4 | 3 4 3 4 6 3 3 5 4 4 3
18 | 10 18 11 13 12 4 13 12 12 22 5 | 3 6 2 4 2 2 2 5 3 6 2
19 | 10 16 8 8 20 4 15 11 10 17 4 | 3 3 2 3 2 2 2 5 3 4 2
20 | 7 11 12 12 12 4 12 10 13 18 4 | 2 4 2 3 2 2 3 3 3 4 2
21 | 12 9 13 11 14 5 7 12 13 22 5 | 3 3 2 3 2 3 2 4 2 5 2
22 | 9 9 11 12 18 4 9 10 10 14 4 | 2 3 2 3 2 2 2 4 2 2 2
23E | 12 18 8 16 19 5 13 13 8 16 5 | 3 5 3 4 4 2 3 6 4 5 3
24 | 7 8 7 10 10 3 11 6 6 14 3 | 3 9999 3 4 2 2 2 3 3 7 3
25 | 7 8 7 8 10 4 9 6 8 17 3 | 3 4 4 2 2 2 3 2 2 6 2
26 | 8 10 10 6 10 3 8 6 6 12 3 | 3 4 3 3 2 3 3 3 2 4 2
27E | 14 13 20 5 15 3 11 7 7 14 4 | 4 6 4 4 3 3 5 4 4 6 3
28 | 6 15 8 8 13 5 13 9 9 19 4 | 3 5 2 5 2 2 2 5 3 5 3
29E | 17 27 7 16 22 5 16 13 13 16 6 | 3 7 2 3 3 2 3 3 2 3 2
30 | 7 10 8 7 8 3 10 6 8 12 3 | 3 9 3 3 3 2 3 3 4 5 3
31 | 13 11 8 11 12 4 11 13 13 17 4 | 3 4 2 4 2 2 3 5 4 4 2
32E | 9 11 17 7 14 3 11 8 8 16 4 | 3 4 4 3 3 2 3 3 3 6 3
------+--------------------------------------------------------+---------------------------------------------------------
RMS | 10 15 11 11 15 4 12 10 9 17 |T 2 4 2 3 2 2 2 4 3 4 2
WRMS | 9 15 12 10 13 4 12 9 8 16 |NE 2 4 2 3 2 2 2 3 2 4 2
MEDI | 9 12 8 10 12 4 11 10 9 16 |MD 3 4 2 3 2 2 3 4 3 5 2
Table 3.1947.4 GPS week: 1947 Day: 4 MJD: 57877.000
Weighted Average Orbit Dynamics (7 days)
PRN | cod emr esa gfz grg igr jpl mit ngs sio IGS | cod emr esa gfz grg igr jpl mit ngs sio IGS
------+--------------------------------------------------------+---------------------------------------------------------
1 | 6 9 8 10 11 6 8 10 7 12 3 | 2 9999 1 2 1 2 2 2 2 3 1
2 | 8 12 10 13 14 5 10 13 9 18 4 | 4 5 2 2 2 1 3 4 2 5 2
3 | 7 8 7 9 8 4 8 9 8 11 3 | 2 9999 2 1 1 1 2 3 2 2 1
X4 | 5 --- --- --- --- 24 --- --- --- --- 0 | 5 --- --- --- --- 3 --- --- --- --- 5
5 | 8 10 11 11 10 4 11 13 11 20 4 | 3 4 2 3 3 2 2 4 2 5 2
6 | 7 7 7 8 9 5 9 7 8 15 3 | 3 2 3 3 3 2 2 4 3 6 3
7 | 9 12 9 11 12 5 10 10 10 20 4 | 3 3 4 5 2 3 3 5 4 6 3
8E | 12 11 19 7 17 6 11 19 9 14 5 | 3 5 4 4 5 3 4 7 5 6 3
9E | 14 10 19 7 17 4 12 9 8 14 4 | 4 7 4 3 4 2 4 4 3 4 3
10 | 4 7 6 7 8 2 4 10 7 16 3 | 2 4 3 2 2 2 2 3 2 6 2
11 | 7 10 14 10 10 4 11 12 8 14 4 | 3 4 2 2 2 2 3 2 3 2 2
12 | 6 19 8 13 15 3 15 12 10 18 4 | 4 4 3 3 2 3 2 4 5 6 3
13E | 9 15 7 9 11 4 11 9 7 17 4 | 4 7 4 3 4 3 3 4 3 6 3
X14E | 10 9 4 9 17 4 9 9 9 --- 4 | 3 5 3 9999 4 2 3 4 3 --- 3
15E | 7 27 5 13 18 4 16 12 11 16 5 | 3 8 3 4 4 2 3 4 3 6 3
16 | 10 23 8 12 15 3 13 12 10 19 5 | 3 3 2 3 2 2 2 4 3 6 2
17E | 10 14 6 10 14 4 15 9 9 11 4 | 3 4 3 4 4 2 4 4 4 4 3
18 | 11 20 8 14 9 4 14 15 12 23 5 | 2 5 3 3 2 1 2 4 2 6 2
19E | 11 16 8 10 17 6 12 15 9 13 4 | 2 4 3 3 4 3 3 4 3 5 2
20 | 9 10 10 11 11 3 11 11 11 20 4 | 4 3 1 2 2 2 2 2 3 4 2
21 | 11 11 12 12 12 5 14 13 11 21 4 | 2 2 1 2 2 2 2 3 3 4 2
22 | 12 8 10 13 12 4 6 11 9 14 4 | 2 2 1 2 1 2 1 2 1 2 1
23E | 17 23 7 15 11 4 13 14 11 15 5 | 4 4 3 4 5 2 3 5 3 5 3
24 | 6 12 8 11 8 4 11 7 8 13 3 | 4 9999 3 3 3 2 3 3 3 6 3
25 | 6 7 7 7 10 4 9 8 9 14 3 | 4 5 5 4 2 3 4 2 4 8 4
26 | 8 10 9 8 10 2 8 7 6 13 3 | 3 4 4 3 2 3 3 2 3 6 3
27E | 11 9 19 5 13 4 10 12 8 12 4 | 3 4 4 4 4 3 5 5 4 7 3
28 | 8 12 8 10 19 5 11 12 7 23 4 | 3 7 2 6 4 3 3 6 4 7 4
29E | 12 28 5 14 16 4 16 13 12 12 5 | 3 6 2 2 3 2 3 3 3 2 2
30 | 9 16 7 5 8 5 8 8 10 11 3 | 3 8 4 4 4 3 3 3 4 7 3
X31 | 13 --- 9 12 13 4 13 15 9 16 5 | 3 --- 2 3 3 2 3 4 3 5 3
32E | 12 8 18 7 10 5 9 7 7 13 4 | 4 4 4 3 3 3 3 3 4 6 3
------+--------------------------------------------------------+---------------------------------------------------------
RMS | 10 14 11 10 13 4 11 11 9 16 |T 3 4 2 3 2 2 2 3 3 5 2
WRMS | 9 14 11 10 12 4 11 10 8 14 |NE 3 4 2 2 2 2 2 3 2 5 2
MEDI | 9 11 8 10 12 4 11 11 9 14 |MD 3 4 3 3 3 2 3 4 3 6 3
Table 3.1947.5 GPS week: 1947 Day: 5 MJD: 57878.000
Weighted Average Orbit Dynamics (7 days)
PRN | cod emr esa gfz grg igr jpl mit ngs sio IGS | cod emr esa gfz grg igr jpl mit ngs sio IGS
------+--------------------------------------------------------+---------------------------------------------------------
1 | 8 8 6 6 9 4 8 7 7 10 3 | 3 9999 2 2 3 2 3 3 3 3 2
2 | 8 10 10 12 15 4 13 12 9 19 4 | 4 5 3 5 3 3 3 5 3 4 3
3 | 7 9 8 6 9 4 8 7 7 9 3 | 4 1 3 2 2 2 2 5 2 2 3
X4 | 3 --- --- --- --- 41 --- --- --- --- 0 | 6 --- --- --- --- 10 --- --- --- --- 6
5 | 10 13 11 10 12 3 12 11 8 19 4 | 3 4 2 2 3 2 2 4 2 5 2
6 | 7 9 5 6 7 3 9 7 4 11 2 | 4 4 3 3 2 3 3 4 3 4 3
7 | 10 13 9 11 12 4 11 8 8 17 4 | 3 3 4 5 2 3 3 5 3 5 3
8E | 9 9 18 6 16 4 12 10 5 12 4 | 3 5 4 4 6 4 5 7 4 5 4
9E | 10 16 15 8 12 3 12 7 7 11 4 | 5 8 4 4 4 3 5 6 4 4 4
10 | 9 9 5 5 8 3 9 10 7 14 3 | 4 3 3 3 5 3 3 5 4 5 3
11 | 9 13 15 9 10 6 10 8 7 13 4 | 4 6 3 3 4 3 4 3 3 4 3
12 | 7 23 8 12 13 3 19 10 9 16 4 | 3 3 2 3 3 2 3 4 4 5 3
13E | 11 18 7 11 23 5 11 8 8 12 4 | 4 7 4 4 8 3 5 4 3 3 3
14E | 6 10 7 6 19 4 9 8 9 12 3 | 3 4 3 9999 4 3 3 6 3 9999 3
15E | 9 25 6 11 58 6 24 11 12 15 7 | 5 8 4 4 8 4 5 8 5 5 4
16 | 12 20 9 12 13 3 16 9 10 20 5 | 3 2 3 2 4 2 2 3 3 5 2
17E | 13 14 4 10 19 5 17 7 8 9 4 | 3 5 3 4 3 3 4 6 3 5 3
18 | 10 16 10 12 14 4 11 14 11 18 5 | 3 3 3 5 4 3 3 5 4 4 3
19E | 13 15 5 11 21 4 11 11 7 12 4 | 3 5 3 4 3 3 3 5 4 5 3
20 | 11 10 10 11 12 3 10 8 10 17 4 | 3 3 1 3 2 2 3 2 2 3 2
21 | 9 10 14 10 15 6 12 14 10 18 4 | 3 4 2 3 2 2 2 5 4 3 3
X22 | 3 --- --- --- --- 14 --- --- --- --- 0 | 2 --- --- --- --- 3 --- --- --- --- 3
23E | 9 20 10 9 16 5 16 12 9 9 4 | 4 6 6 5 5 4 5 7 5 5 5
24 | 8 11 7 8 7 3 11 8 5 11 3 | 4 9999 3 3 3 3 3 4 3 5 3
25 | 6 8 8 6 9 3 11 10 8 13 3 | 4 5 4 4 4 3 4 4 4 6 3
26 | 15 11 10 8 12 3 9 8 9 12 4 | 4 5 4 3 4 3 4 4 5 5 3
27E | 8 9 18 8 20 3 11 8 10 12 4 | 4 5 4 4 6 3 5 4 5 5 3
28 | 7 14 8 8 14 5 11 11 7 18 4 | 3 7 3 4 3 3 3 6 4 5 3
29E | 19 24 6 14 19 5 18 13 11 11 5 | 4 5 4 5 4 4 4 5 4 3 4
30 | 12 13 8 7 12 4 8 5 6 10 3 | 4 5 4 4 3 3 3 3 3 5 3
31 | 16 15 9 10 11 3 11 10 12 17 4 | 4 9999 3 3 3 3 3 4 5 4 3
32E | 11 9 18 5 17 3 9 7 9 12 4 | 4 4 3 4 5 3 4 4 5 5 3
------+--------------------------------------------------------+---------------------------------------------------------
RMS | 10 14 10 9 18 4 13 10 9 14 |T 3 4 3 3 3 3 3 4 3 4 3
WRMS | 10 14 10 8 15 4 13 9 8 14 |NE 3 3 2 3 3 3 2 4 3 4 2
MEDI | 9 13 8 9 13 4 11 8 8 12 |MD 4 5 3 4 3 3 3 4 4 5 3
Table 3.1947.6 GPS week: 1947 Day: 6 MJD: 57879.000
Weighted Average Orbit Dynamics (7 days)
PRN | cod emr esa gfz grg igr jpl mit ngs sio IGS | cod emr esa gfz grg igr jpl mit ngs sio IGS
------+--------------------------------------------------------+---------------------------------------------------------
1 | 8 9 6 7 9 3 10 7 4 8 2 | 2 9999 2 2 2 2 3 2 3 2 2
2 | 9 13 11 14 16 4 13 14 10 15 4 | 2 4 2 4 2 2 2 4 3 3 3
3 | 7 7 8 10 10 4 10 10 5 8 3 | 3 1 2 2 1 2 2 4 2 2 2
X4 | 4 --- --- --- --- 27 --- --- --- --- 0 | 4 --- --- --- --- 8 --- --- --- --- 4
5 | 11 13 11 11 12 3 11 12 8 17 4 | 2 3 1 1 1 1 2 2 2 3 2
6 | 8 8 6 8 8 3 9 8 5 7 2 | 3 4 2 2 2 2 2 2 2 2 2
7 | 7 12 10 13 11 4 11 8 9 17 4 | 2 3 2 3 2 2 2 3 2 3 2
8E | 11 10 19 6 17 4 11 8 7 10 4 | 3 5 4 4 4 3 5 5 3 4 3
9E | 13 17 16 8 18 3 12 8 6 9 4 | 3 6 5 4 4 3 5 5 4 4 4
10 | 6 11 7 9 13 3 7 14 6 14 3 | 3 2 2 2 4 2 3 4 3 2 2
11 | 7 14 16 12 12 3 11 9 8 12 4 | 3 5 2 2 3 2 3 3 2 3 2
12 | 7 22 8 14 13 4 16 10 10 12 4 | 2 3 2 2 2 2 2 2 2 2 2
13E | 16 13 8 10 15 4 8 10 10 13 4 | 4 5 3 3 6 3 4 3 3 3 3
14E | 9 11 7 8 24 4 8 14 6 9 4 | 2 3 3 9999 4 2 3 5 3 9999 3
15 | 13 24 7 16 24 6 15 18 9 12 5 | 4 7 3 3 5 3 4 6 3 2 3
16 | 7 20 9 12 13 3 14 10 8 15 4 | 3 2 3 2 4 2 2 2 2 2 2
17E | 17 12 7 13 19 5 15 14 8 11 5 | 4 4 3 4 3 3 3 5 3 4 3
18 | 10 16 9 16 15 5 12 13 10 16 4 | 3 2 2 4 3 3 2 4 3 2 2
19E | 15 14 6 11 17 5 11 9 8 12 4 | 4 4 3 4 3 3 3 4 3 4 3
20 | 8 11 10 13 13 3 10 9 9 13 4 | 2 2 1 2 2 1 2 1 1 2 1
21 | 11 9 14 15 17 5 16 16 10 17 5 | 2 3 2 3 2 2 2 4 3 2 2
22 | 8 10 11 13 16 5 9 9 9 14 4 | 2 9999 9999 9999 9999 2 9999 9999 9999 9999 2
23E | 10 19 6 15 24 5 14 16 8 11 5 | 3 5 5 4 4 3 4 6 4 4 4
24 | 5 9 10 10 8 3 8 6 5 8 3 | 3 9999 2 2 2 2 3 3 2 2 2
25 | 5 9 8 7 10 2 8 7 7 9 3 | 2 4 3 2 3 2 3 3 2 3 2
26 | 10 13 10 8 8 3 7 8 6 8 3 | 3 4 3 3 4 3 3 3 3 2 2
27E | 9 9 19 7 16 4 10 8 6 8 4 | 3 4 4 3 4 3 5 3 4 3 3
28 | 6 13 8 9 13 4 11 13 8 13 4 | 2 5 3 2 2 2 3 4 2 2 2
29E | 18 21 7 17 19 3 17 14 10 11 5 | 3 4 4 4 4 3 4 4 3 3 3
30 | 6 10 9 9 8 4 9 6 5 9 3 | 3 4 4 3 2 2 2 3 3 3 3
31 | 12 14 10 12 13 3 10 12 9 12 4 | 3 9999 2 2 3 2 2 3 4 3 2
32E | 13 11 18 5 17 4 10 12 6 9 4 | 3 4 3 3 4 3 3 4 4 3 3
------+--------------------------------------------------------+---------------------------------------------------------
RMS | 10 14 11 11 15 4 11 11 8 12 |T 2 3 2 2 3 2 2 3 2 2 2
WRMS | 9 14 11 11 15 4 11 9 7 11 |NE 2 3 2 2 2 2 2 2 2 2 2
MEDI | 9 12 9 11 13 4 11 10 8 12 |MD 3 4 3 3 3 2 3 3 3 3 2
Table 4: Precise Navigation Summary.
Weekly station RMS w.r.t. the estimated coordinates for the Latitude,
Longitude and Height components. See Table 5 for the daily summary.
CLK - Satellite clocks used.
EPO - Mean number of satellite clock epochs available in the daily
solutions.
Units: mm.
Table 4.1947 GPS week: 1947 MJD: 57873.0-57879.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 3054 |U 5 6 12 |U 5 7 20 |U 8 9 22 |
emr | emr 2902 |U 8 11 17 |U 7 8 24 | 10 9 23 |
esa | esa 2962 | 6 8 13 |U 5 8 21 | 10 11 24 |
gfz | gfz 2948 |U 5 7 14 |U 5 8 23 |U 10 10 25 |
grg | grg 2959 |U 6 7 15 |U 6 9 27 | 9 10 25 |
igr | igr 2960 | 5 7 13 | 5 7 21 | 9 10 24 |
igs | igs 2961 | 5 7 13 | 5 7 22 | 9 10 23 |
jpl | jpl 2962 | 6 9 16 | 5 8 22 |U 11 11 24 |
mit | mit 2962 | 6 6 18 |U 6 8 27 |U 21 34 58 |
Table 5: Daily Precise Navigation Summary using the corresponding Centre orbit
positions and satellite clock corrections at 15 min intervals.
Each line gives the daily station RMS w.r.t. the estimated coordinates
for the Latitude, Longitude and Height components.
CLK - Satellite clocks used.
EPO - Number of satellite clock epochs available for that day.
Units: mm.
Table 5.1947.0 GPS week: 1947 Day: 0 MJD: 57873.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 3072 | 4 5 12 | 4 6 15 | 7 8 17 |
emr | emr 2880 | 9 9 15 | 7 9 20 | 9 9 20 |
esa | esa 2976 | 5 7 15 | 4 7 16 | 8 11 20 |
gfz | gfz 2976 | 5 5 13 | 5 7 18 | 9 10 20 |
grg | grg 2976 | 5 4 16 | 6 9 23 | 7 7 18 |
igr | igr 2976 | 5 6 14 | 4 7 15 | 8 10 19 |
igs | igs 2976 | 5 6 14 | 4 7 17 | 7 8 18 |
jpl | jpl 2976 | 6 8 18 | 6 8 21 | 11 12 22 |
mit | mit 2976 | 5 5 15 | 5 7 19 | 8 9 20 |
Table 5.1947.1 GPS week: 1947 Day: 1 MJD: 57874.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 3069 | 5 8 11 | 4 7 18 | 8 12 23 |
emr | emr 2976 | 8 12 14 | 7 7 22 | 10 10 21 |
esa | esa 2976 | 7 10 14 | 5 7 20 | 9 13 24 |
gfz | gfz 2976 | 5 8 13 | 5 9 19 | 8 11 25 |
grg | grg 2975 | 9 9 20 | 5 7 28 | 9 13 28 |
igr | igr 2976 | 6 9 13 | 4 7 18 | 8 12 25 |
igs | igs 2976 | 6 8 12 | 5 6 19 | 8 12 25 |
jpl | jpl 2976 | 7 10 16 | 5 8 19 | 9 11 25 |
mit | mit 2976 | 5 7 16 | 6 6 23 | 14 12 29 |
Table 5.1947.2 GPS week: 1947 Day: 2 MJD: 57875.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 3063 | 4 5 9 | 4 9 19 | 6 6 18 |
emr | emr 2880 | 7 10 15 | 7 9 27 | 7 6 17 |
esa | esa 2976 | 4 8 12 | 5 10 21 | 7 7 18 |
gfz | gfz 2976 | 4 6 12 | 5 10 22 | 7 6 20 |
grg | grg 2976 | 5 5 13 | 5 10 29 | 6 5 20 |
igr | igr 2976 | 4 7 12 | 5 10 20 | 7 7 18 |
igs | igs 2976 | 4 6 11 | 5 10 22 | 6 6 19 |
jpl | jpl 2976 | 6 10 16 | 6 10 22 | 9 9 21 |
mit | mit 2976 | 6 6 18 | 6 9 36 | 7 6 21 |
Table 5.1947.3 GPS week: 1947 Day: 3 MJD: 57876.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 3060 | 5 5 10 | 6 7 18 | 7 7 19 |
emr | emr 2873 | 7 10 18 | 7 8 23 | 9 7 23 |
esa | esa 2976 | 6 6 11 | 6 7 20 | 9 9 22 |
gfz | gfz 2877 | 6 6 13 | 6 8 26 | 9 9 23 |
grg | grg 2958 | 6 5 12 | 9 18 32 | 8 9 21 |
igr | igr 2964 | 6 6 11 | 6 7 20 | 8 9 22 |
igs | igs 2970 | 6 6 10 | 7 7 20 | 8 8 20 |
jpl | jpl 2976 | 7 8 14 | 6 8 19 | 11 11 21 |
mit | mit 2976 | 6 5 14 | 7 7 24 | 8 9 18 |
Table 5.1947.4 GPS week: 1947 Day: 4 MJD: 57877.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 3072 | 4 7 9 | 6 5 25 | 10 12 26 |
emr | emr 2862 | 9 15 18 | 7 8 29 | 13 12 24 |
esa | esa 2976 | 6 10 12 | 6 5 26 | 12 15 28 |
gfz | gfz 2976 | 5 9 12 | 7 6 29 | 12 14 29 |
grg | grg 2976 | 5 7 13 | 7 5 28 | 12 14 29 |
igr | igr 2976 | 6 9 12 | 6 4 27 | 11 14 27 |
igs | igs 2976 | 5 8 11 | 6 6 27 | 11 14 27 |
jpl | jpl 2976 | 7 11 16 | 6 7 27 | 13 15 27 |
mit | mit 2976 | 5 7 17 | 7 5 31 | 11 13 28 |
Table 5.1947.5 GPS week: 1947 Day: 5 MJD: 57878.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 2976 | 5 6 14 | 6 5 19 | 13 13 33 |
emr | emr 2880 | 6 9 20 | 6 7 21 | 14 12 31 |
esa | esa 2880 | 5 7 15 | 5 6 20 | 15 14 35 |
gfz | gfz 2880 | 5 6 15 | 6 6 21 | 14 14 35 |
grg | grg 2880 | 6 8 19 | 7 6 26 | 13 16 38 |
igr | igr 2880 | 5 7 15 | 6 5 18 | 14 13 34 |
igs | igs 2880 | 5 6 15 | 5 6 21 | 14 13 34 |
jpl | jpl 2880 | 5 8 18 | 6 8 20 | 15 14 33 |
mit | mit 2880 | 7 7 24 | 7 7 30 | 88 179 271 |
Table 5.1947.6 GPS week: 1947 Day: 6 MJD: 57879.0
CENT| CLK EPO | BRUX | TOW2 | WILL |
----+----------+-------------------+-------------------+-------------------+
cod | cod 3070 | 6 8 17 | 4 10 24 | 8 7 21 |
emr | emr 2969 | 8 10 17 | 5 11 29 | 8 7 23 |
esa | esa 2976 | 7 8 14 | 5 11 26 | 8 8 20 |
gfz | gfz 2976 | 6 7 17 | 4 12 28 | 9 9 23 |
grg | grg 2976 | 6 8 15 | 5 10 26 | 8 8 24 |
igr | igr 2976 | 6 7 16 | 4 10 27 | 8 9 21 |
igs | igs 2976 | 6 8 16 | 4 10 26 | 8 8 21 |
jpl | jpl 2976 | 8 9 17 | 5 11 24 | 9 9 21 |
mit | mit 2976 | 8 8 20 | 6 10 27 | 8 8 21 |
Table 6: Earth Orientation Parameters weekly summary.
Weekly mean and standard deviation of Centre ERP, ERP rates and
LOD differences with respect to IGS combined values. See Table 7 for
the daily summaries.
Xpole,Xrt: x pole and x pole rate
Ypole,Yrt: y pole and y pole rate
LOD : Length Of Day
AC LOD BIAS : 10-day mean LOD bias with respect to Bulletin A
AC LOD BIAS RMS: RMS of AC LOD BIAS
FLAG: "u" (used), "x" (excluded), "-" (no submission)
for Xpole, Ypole, Xrt, Yrt and LOD
Table 6.1947 GPS week: 1947 MJD: 57873.500-57879.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -21 -1 42 -32 2 | 20 27
| 10 18 75 103 5 | 1
emr uuuuu | 47 3 -105 104 7 | 40 48
| 15 25 115 62 15 | 7
esa uuuuu | -5 -1 59 117 -1 | 21 30
| 13 14 39 80 2 | 2
gfz uuuuu | 2 7 -4 22 -6 | 14 26
| 10 16 82 62 3 | 3
grg uuuuu | -7 -14 17 -165 5 | 4 20
| 30 24 54 110 7 | 2
igr xxxxx | -9 -5 63 -18 0 | -2 14
| 16 7 30 31 5 | 6
irf xxxxx | 4 -12 -29 -16 -5 | 2 23
| 9 15 26 28 5 | 2
jpl xxxxx | 0 -16 32 34 -1 | 9 24
| 21 18 55 59 5 | 2
mit uuuuu | -8 -13 -79 -75 -3 | 34 41
| 27 21 79 55 8 | 2
ngs uuuuu | -18 16 5 -45 -4 | 15 26
| 31 27 75 47 4 | 2
sio uuuux | 49 -10 51 102 0 | 95 98
| 23 29 49 56 19 | 2
Table 7.1947.0 GPS week: 1947 Day: 0 MJD: 57873.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -26 22 -39 33 -3 | 20 26
emr uuuuu | 38 37 -207 -6 23 | 29 41
esa uuuuu | 12 21 4 162 0 | 23 31
gfz uuuuu | 1 -3 -7 133 -7 | 18 27
grg uuuuu | 17 -42 32 -132 -4 | 5 20
igr xxxxx | -10 -9 70 -27 3 | 2 8
irf xxxxx | -3 -34 15 -41 1 | 2 22
jpl xxxxx | 0 -31 20 -84 4 | 11 25
mit uuuuu | -50 -39 58 -129 7 | 33 39
ngs uuuuu | 7 25 23 -104 3 | 16 25
sio uuuux | 41 -43 158 69 19 | 93 96
Table 7.1947.1 GPS week: 1947 Day: 1 MJD: 57874.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -19 2 52 -124 7 | 21 27
emr uuuuu | 26 31 -264 107 14 | 35 45
esa uuuuu | 6 -1 37 117 -4 | 25 32
gfz uuuuu | -16 -2 -36 41 -6 | 19 28
grg uuuuu | 23 -41 126 -40 0 | 7 20
igr xxxxx | 3 -14 58 -42 -9 | 9 11
irf xxxxx | 11 -19 -8 8 -3 | 4 22
jpl xxxxx | -2 -36 76 43 5 | 12 25
mit uuuuu | -23 -25 -28 -34 1 | 35 42
ngs uuuuu | 6 45 9 -79 -4 | 18 27
sio uuuux | 34 -47 53 159 17 | 96 99
Table 7.1947.2 GPS week: 1947 Day: 2 MJD: 57875.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -15 -24 -49 -129 4 | 19 26
emr uuuuu | 40 -10 -65 126 21 | 36 46
esa uuuuu | -12 -3 47 166 3 | 21 30
gfz uuuuu | -2 -1 -76 0 -10 | 14 26
grg uuuuu | 0 -21 24 -66 0 | 3 20
igr xxxxx | -11 3 35 22 2 | -3 17
irf xxxxx | -13 -17 -39 1 1 | 1 24
jpl xxxxx | 0 -18 82 43 -1 | 9 25
mit uuuuu | -34 -23 -68 -35 4 | 32 40
ngs uuuuu | 19 56 109 -26 -5 | 15 27
sio uuuux | 20 3 46 10 16 | 94 97
Table 7.1947.3 GPS week: 1947 Day: 3 MJD: 57876.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -2 -2 59 -99 9 | 18 26
emr uuuuu | 47 -15 7 67 2 | 40 48
esa uuuuu | 6 -13 64 219 -2 | 19 29
gfz uuuuu | 0 40 -64 -42 -5 | 11 25
grg uuuuu | -31 10 -1 -144 5 | 1 20
igr xxxxx | -35 -10 30 -57 4 | -7 18
irf xxxxx | 5 -5 -47 -19 -4 | 0 24
jpl xxxxx | -31 -30 20 97 1 | 6 23
mit uuuuu | 2 -1 -132 -102 -5 | 32 40
ngs uuuuu | -35 -9 38 15 -10 | 14 26
sio uuuux | 49 -21 38 139 -1 | 94 97
Table 7.1947.4 GPS week: 1947 Day: 4 MJD: 57877.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -29 -9 74 -74 -3 | 20 27
emr uuuuu | 73 14 -114 161 10 | 45 50
esa uuuuu | -21 -22 62 68 -1 | 20 30
gfz uuuuu | 16 3 15 66 -1 | 12 25
grg uuuuu | 23 0 -2 -157 7 | 3 20
igr xxxxx | 9 -11 119 17 6 | -5 15
irf xxxxx | 15 14 -62 15 -7 | 2 23
jpl xxxxx | 38 6 54 6 2 | 8 23
mit uuuuu | 12 25 -157 -49 -7 | 34 41
ngs uuuuu | -72 -16 30 -66 -8 | 14 26
sio uuuux | 92 37 28 147 -7 | 96 99
Table 7.1947.5 GPS week: 1947 Day: 5 MJD: 57878.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -23 -17 175 150 -1 | 22 28
emr uuuuu | 53 -3 -152 95 -20 | 48 53
esa uuuuu | -8 13 65 116 -2 | 22 31
gfz uuuuu | 12 14 -31 -7 -5 | 14 25
grg uuuuu | -51 19 -41 -257 14 | 5 21
igr xxxxx | 4 2 53 -4 -2 | -3 14
irf xxxxx | 4 -11 -25 -63 -13 | 4 22
jpl xxxxx | 5 10 -79 54 -10 | 11 24
mit uuuuu | 14 -17 -69 -158 -12 | 37 42
ngs uuuuu | -23 -3 -40 -68 -5 | 15 27
sio uuuux | 48 0 27 61 -25 | 99 101
Table 7.1947.6 GPS week: 1947 Day: 6 MJD: 57879.500
AC LOD AC LOD
CENT FLAG | Xpole Ypole Xrt Yrt LOD | BIAS BIAS RMS
| [uas] [uas] [uas/d] [uas/d] [us]| [us] [us]
------------+----------------------------------------+------------------
cod uuuuu | -31 20 24 19 0 | 20 27
emr uuuuu | 54 -31 61 180 1 | 44 51
esa uuuuu | -20 -4 134 -28 -4 | 20 30
gfz uuuuu | 3 -2 168 -34 -10 | 11 25
grg uuuuu | -26 -21 -17 -358 12 | 4 21
igr xxxxx | -24 3 77 -37 -2 | -7 18
irf xxxxx | 7 -10 -39 -14 -9 | 1 24
jpl xxxxx | -12 -16 50 78 -6 | 9 25
mit uuuuu | 21 -10 -160 -17 -12 | 33 41
ngs uuuuu | -26 15 -133 16 -1 | 12 26
sio uuuux | 58 2 9 132 -22 | 94 98
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