[IGSREPORT-6179] Wk 1014 GPS Earth Orientation

Mon Jun 21 09:52:41 PDT 1999

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IGS Electronic Report    Mon Jun 21  9:52:41 PDT 1999      Message Number 6179
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Author: IERS Sub-bureau for Rapid Service and Predictions
Subject: Wk 1014 GPS Earth Orientation

Subject: Earth Orientation Contributions to IERS Bulletin A
Date: 17 Jun 99

In this report, individual Earth orientation time series are compared
to the IERS Bulletin A combination.  For further information, including
the raw time series, refer to http://maia.usno.navy.mil/bulletin-a.html.

The first table below shows some comparison results for those series
included in Bulletin A during the last 30 days.  All data are aligned to
the system defined by ITRF94 and the current ICRF by removing a priori mean
bias, rate, annual and semiannual terms.  (No corrections are applied to 
the NEOS VLBI and the NEOS Intensives series for UT1-UTC.)

Units: milliseconds of arc for x, y; milliseconds of time for UT1-UTC

Contributor   Latest      #         Mean          Standard Deviation
Series         Day               (series-BullA)
                                x     y  UT1-UTC    x     y  UT1-UTC

NEOS Int.    51341.82    23                .003                .022

SPbU Int.    51339.66    21                .012                .021

NEOS VLBI    51338.25     5    .03   .08  -.008    .11   .12   .006

CSR SLR      51341.85    11   -.18  -.16   .029*   .36   .25   .087*

TUD SLR      51339.00    10   -.29  -.02           .40   .47

IAA SLR      51344.00    30   -.01  -.05           .16   .14

MCC SLR      51338.00    30    .04  -.06           .20   .14

UTX LLR      51324.88     9                .071                .238

IGS Final    51334.50    30    .00   .00           .02   .02

IGS Rapid    51345.50    11    .02   .01           .08   .04

             51345.50     4                .006*               .018*

USNO GPS     51345.50    30                .000*               .022*

EMR GPS      51345.50    22                .017*               .039*

* All satellite techniques provide information on the rate of change of
  Universal Time contaminated by effects due to unmodelled orbit node
  motion.  VLBI-based results have been used to minimize drifts in UT
  estimates.

The following tables show comparisons for other related time series during
the last 30 days.  All IGS series are final solutions except for the USNO
series.  No a priori systematic corrections have been applied.

Units: milliseconds of arc for x, y; milliseconds of time for UT, LOD 

IGS           Latest   #              Mean                Standard Deviation
Series         Day               (series-BullA)
                             x     y     UT*    LOD*    x     y      UT*   LOD*

COD          51340.5  30    .26   .10   2.25   .011    .05   .08    .05   .012

ESA          51334.5  30    .45   .18         -.007    .10   .12          .022

EMR          51327.5  30    .23   .07 -16.42  -.014    .14   .10    .04   .020

GFZ          51341.5  30    .24  -.02    .02   .005    .11   .07    .06   .020

JPL          51334.5  30    .28   .02 -14.30   .018    .07   .07    .15   .021

NGS          51340.5  30    .42  -.21          .000    .12   .16          .030

SIO          51334.5  30    .40   .13          .006    .08   .10          .035

USN (Rapid)  51345.5  29    .35   .14         -.003    .13   .14          .024

USNO GPS UT  51345.5  30                1.13                        .02

IGS Final    51334.5  30    .30   .06    .00   .001    .04   .04    .01   .019

IGS Rapid    51345.5  30    .32   .11   -.03   .003    .09   .09    .05   .023

* All satellite techniques provide information on the rate of change of
  Universal Time contaminated by effects due to unmodelled orbit node
  motion.  The UT results for COD and JPL are integrations of LOD estimates.
  EMR estimates UT and LOD separately by applying a priori orbit constraints.
  GFZ and IGS use VLBI-based results to minimize drifts in their UT estimates
  and thus the standard deviations are not representative of the intrinsic
  capabilities of GPS alone for monitoring UT variations.  USNO estimates
  UT using long-term models for orbit plane rotations.

IERS Central Bureau Series:

Series       Latest    #          Mean                Standard Deviation
              Day            (series-BullA)
                             x     y  UT1-UTC           x     y  UT1-UTC

Bulletin B   51299.   30   -.03   .07   .001           .04   .05   .015

97C04        51345.   30   -.04   .08  -.006           .05   .09   .020

Plots of the residuals are available at http://maia.usno.navy.mil/plots.html.
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The IERS Sub-bureau for Rapid Service and Prediction is an activity of the
National Earth Orientation Service and is performed by the Earth Orientation
Department at the U.S. Naval Observatory.
--
Dennis D. McCarthy                       dmc at maia.usno.navy.mil
Director, Directorate of Time            phone: (202) 762-1837
U.S. Naval Observatory                   fax: (202) 762-1563
Washington, DC 20392-5420

[Mailed From: Dennis McCarthy <dmc at maia.usno.navy.mil>]