INTERNATIONAL SERVICES:
“INTERNATIONAL LASER RANGING
SERVICE (ILRS)”
M. R. Pearlman, C. E. Noll and W. Gurtner
Contributions of the ILRS
The ILRS collects, merges, analyzes,
archives and distributes Satellite Laser Ranging (SLR) and Lunar Laser Ranging
(LLR) observation data sets of sufficient accuracy to satisfy the objectives of
a wide range of scientific, engineering, and operational applications and
experimentation. The basic observable is the precise time-of-flight of an
ultrashort laser pulse to and from a satellite, corrected for atmospheric
delays and spacecraft center-of-mass. These data sets are used by the ILRS to
generate fundamental data products, including: accurate satellite ephemerides,
Earth orientation parameters, three-dimensional coordinates and velocities of
the ILRS tracking stations; time-varying geocenter coordinates, static and
time-varying coefficients of the Earth's gravity field, fundamental physical
constants, lunar ephemerides and librations, and lunar orientation parameters
Organization and role of the ILRS
The ILRS Tracking Stations range to
a constellation of artificial satellites and the Moon with state-of-the-art
laser ranging systems and transmit their data on an hourly basis to an
Operations or Data Center. Stations are expected to meet ILRS data accuracy,
quantity, and timeliness requirements, and their data must be regularly and
continuously analyzed by at least one Analysis or mission-specific Associate
Analysis Center. Each Tracking Station is typically associated with one of the
three regional subnetworks: National Aeronautics and Space Administration
(NASA), EUROpean LASer Network (EUROLAS), or the Western Pacific Laser Tracking
Network (WPLTN).
Operations Centers collect and merge
the data from the tracking sites, provide initial quality checks, reformat and
compress the data if necessary, maintain a local archive of the tracking data,
and relay the data to a Data Center. Operational Centers may also provide the
Tracking Stations with sustaining engineering, communications links, and other
technical support. Tracking Stations may perform part or all of the tasks of an
Operational Center themselves.
Global Data Centers are the primary
interfaces between the Tracking Stations and the Analysis Centers and outside
users. They receive and archive ranging data and supporting information from
the Operations and Regional Data Centers, and provide these data on-line to the
Analysis Centers. They also receive and archive ILRS scientific data products
from the Analysis Centers and provide these products on-line to users. Regional
Data Centers reduce traffic on electronic networks and provide a local data
archive.
Analysis Centers receive and process
tracking data to produce ILRS products. They are committed to produce the
products on a routine basis for delivery to the Global Data Centers and the
IERS using designated standards. Full Analysis Centers routinely process the
global LAGEOS-1 and LAGEOS-2 data and provide Earth orientation parameters on a
weekly or sub-weekly basis. They also produce other products such as station
coordinates and velocities and geocenter coordinates on a schedule consistent
with IERS requirements and provide a second level of data quality assurance in
the network. Associate Analysis Centers produce specialized products, such as
time-varying gravity field measurements, fundamental constants, satellite
predictions, precision orbits for special-purpose satellites, regional geodetic
measurements, and data products of a mission-specific nature. Associate
Analysis Centers are also encouraged to perform quality control functions
through the direct comparison of Analysis Center products and the creation of
“combined” solutions using data from other space geodetic techniques. Lunar
Analysis Centers produce LLR products such as lunar ephemeris, lunar libration,
and Earth rotation (UT0 - UT1). In the field of relativity, LLR is used for the
verification of the equivalence principle, estimation of geodetic precession,
and examination of the relative change in G.
Central Bureau
The ILRS Central Bureau (CB) is
responsible for the daily coordination and management of ILRS activities. It
facilitates communications and information transfer and promotes compliance
with ILRS network standards. The CB monitors network operations and quality
assurance of the data, maintains all ILRS documentation and databases, and
organizes meetings and workshops. In order to strengthen the ILRS interface
with the scientific community, a Science Coordinator and an Analysis Specialist
within the CB take a proactive role to enhance dialogue, to promote SLR goals
and capabilities, and to educate and advise the ILRS entities on current and
future science requirements related to SLR. The Science Coordinator leads
efforts to ensure that ILRS data products meet the needs of the scientific
community and there is easy online access to all published material (via
Abstracts) relevant to SLR science and technology objectives.
The
CB has been actively providing new facilities to expedite communication and
performance review, and adding to the technical and scientific database. The
information available via the ILRS Web Site has grown enormously since its
inception, and many new links to related organizations and sites have been
established. The site provides details and photographic material on the ILRS,
the satellites and campaigns, individual SLR station characteristics, a
scientific and technical bibliography on SLR and its applications, current
activities of the Governing Board, Working Groups, and Central Bureau, meeting
minutes and reports (including annual reports), tracking plans, and much more.
An enhanced search capability has recently been added to the website.
The Central Bureau maintains the web
site as the primary vehicle for the distribution of information within the ILRS
community. The site, which can be accessed at http://ilrs.gsfc.nasa.gov,
includes the following major topic titles: About the ILRS, What’s New, Working
Groups, Satellite Missions, Global Network, Data and Products, Science and
Analysis, Engineering and Technology, Publications, Contact ILRS, Links, Site
Map, and Search. Mirrored sites for the ILRS web site are available at the
Communications Research Laboratory (CRL) in Tokyo and the European Data Center
(EDC) in Munich. The site also includes SLR related bibliographies, Earth
science links, historical information, collocation histories, and mail
exploders. An on-line brochure provides charts for SLR presentations. A hard
copy library of early documentation has been assembled and is listed in the
on-line bibliography. An ILRS Reference
Card is available to provide easy online access to much of this material and to
targeted email exploders.
Governing board and working groups
The Governing Board (GB) is
responsible for the general direction of the service. It defines official ILRS
policy and products, determines satellite-tracking priorities, develops
standards and procedures, and interacts with other services and organizations.
There are sixteen members of the Governing Board (GB) - three are ex-officio,
seven are appointed, and six are elected by their peer groups (see Table 1). A
new Board was installed in November 2002 at the 13th International
Workshop in Washington D.C.
Table 1. ILRS Governing Board
(as of May 2003)
|
Hermann Drewes |
Ex-Officio, CSTG President |
Germany |
|
Michael Pearlman |
Ex-Officio, Director ILRS Central
Bureau |
USA |
|
Carey Noll |
Ex-Officio, Secretary, ILRS
Central Bureau |
USA |
|
Werner Gurtner |
Appointed, EUROLAS , Governing
Board Chair |
Switzerland |
|
Giuseppe Bianco |
Appointed, EUROLAS |
Italy |
|
David Carter |
Appointed, NASA, Missions Working
Group Coordinator. |
USA |
|
Jan McGarry |
Appointed, NASA, Data Formats
& Procedures WG Deputy Coordinator |
USA |
|
Ben Greene |
Appointed, WPLTN |
Australia |
|
Hiroo Kunimori |
Appointed, WPLTN, Missions WG
Deputy Coordinator |
Japan |
|
Bob Schutz |
Appointed, IERS Representative to
ILRS |
USA |
|
Graham Appleby |
Elected, Analysis Rep., Signal
Processing WG Coordinator |
UK |
|
Ron Noomen |
Elected, Analysis Rep. , Analysis
WG Coordinator |
Netherlands |
|
Wolfgang Seemueller |
Elected, Data Centers Rep. , Data
Formats & Procedures WG Coordinator |
Germany |
|
Peter Shelus |
Elected, Lunar Rep., Analysis WG
Deputy Coordinator |
USA |
|
Georg Kirchner |
Elected, At-Large, Networks and
Engineering WG Coordinator |
Austria |
|
Ulrich Schreiber |
Elected, At-Large, Networks and
Engineering WG Deputy Coordinator |
Germany |
Within the GB, permanent (Standing)
or temporary (Ad-Hoc) Working Groups (WG's) carry out policy formulation for
the ILRS. At its creation, the ILRS established four Standing WG's: (1)
Missions, (2) Data Formats and Procedures, (3) Networks and Engineering, and
(4) Analysis. In 1999, an Ad-Hoc Signal Processing WG was organized to provide
improved satellite range correction models to the analysts. The Working Groups
are intended to provide the expertise necessary to make technical decisions, to
plan programmatic courses of action, and are responsible for reviewing and
approving the content of technical and scientific databases maintained by the
Central Bureau. All GB members serve on at least one of the four Standing
Working Groups, led by a Coordinator and Deputy Coordinator (see Table 1).
The
working groups have attracted talented people from the general ILRS membership
who have contributed greatly to the success of these efforts. The
Missions WG has formalized and standardized
the mission documentation required to obtain ILRS approval for new missions and
campaigns. They continue to work with new missions and campaign sponsors to
develop and finalize tracking plans and to establish recommended tracking
priorities. The Data Formats and
Procedures WG has been reviewing
existing formats and procedures, rectifying anomalies, providing standardized
documentation through the web site, and setting up study subgroups and teams to
deal with more complicated or interdisciplinary issues. The Networks and Engineering WG has (1) developed the new ILRS Site and
System Information Form, which is being distributed to the stations to keep the
engineering database current, (2) provided a new online satellite-link analysis
capability for system design and performance evaluation, and (3) initiated the
development of the ILRS technology database. The Analysis WG has been working
with the ILRS Analysis Centers to develop a unified set of analysis products
presented in the internationally accepted SINEX format. Three associated pilot
programs are underway to assess differences among analysis products from the
different Analysis and Associate Analysis centers. The Signal Processing Ad-Hoc
WG is working on improved center-of-mass corrections and signal processing
techniques for SLR satellites.
ILRS Network
The ILRS Network as of May 2003 is
shown in Figure 1. Traditionally the network has been strong in the US, Europe,
and Australia. Through international partnerships, the global distribution of
SLR stations is now improving, especially in the Southern Hemisphere. NASA,
CNES and the University of French Polynesia have established SLR operations on
the island of Tahiti with MOBLAS-8. In cooperation with the South African
Foundation for Research Development (FDR), NASA has relocated MOBLAS-6 to
Hartebeesthoek (which already has VLBI, GPS, and DORIS facilities) to create
the first permanent Fundamental Station on the African continent. MOBLAS-5,
long established by NASA and AUSLIG at Yarragadee, Australia, continues to
operate with exemplary performance. Operations at the new Australian station on
Mt. Stromlo, which replaced the older Orroral site near Canberra, were going
extremely well until a catastrophic forest fire destroyed the site and much of
the surrounding area. Reconstruction is now being planned.
The NASA TLRS-3 system at
Universidad de San Agustin in Arequipa, Peru, has carried the total SLR
tracking load for South America in recent years. BKG (Germany) has now
established a new site at Concepción, Chile with its newly developed
multi-technique Totally Integrated Geodetic Observatory (TIGO). The TIGO, with
SLR, VLBI, GPS and absolute gravimetry technique, now provides the first
Fundamental Station in South America. A joint Chinese-Argentine SLR station at
the San Juan Observatory in western Argentina is being planned with SLR
equipment furnished by the Beijing Astronomical Observatory.
The Peoples' Republic of China has
made substantial investment in SLR stations and technology over the past two
years. The SLR station in Kunming was recently re-established, bringing the
total number of Chinese permanent sites to five (Shanghai, Changchun, Wuhan,
Beijing, and Kunming). The data quality and quantity from the permanent Chinese
stations continue to improve, most notably at Changchun. The Wuhan SLR station
has been recently moved to a site outside the city with significantly better
atmospheric seeing conditions. The Shanghai SLR station is slated for
relocation this year for similar reasons. A Chinese mobile SLR station has
occupied sites in Lhasa and Urumuqi, as part of a national geodetic program. A
new Russian SLR station started operations near Moscow in 1999, and permission
is being requested from the Russian government to integrate it into
international SLR operations.
In Japan, an upgraded SLR station at
the Communications Research Laboratory (CRL) in Tokyo is now operational. The
four Keystone sites at Kashima, Tateyama, Koganei and Miura have been closed,
but the new Global and High Accuracy Trajectory
determination System (GUTS) SLR system is being developed by NASDA for
deployment at Tanegashima.
During the past four years, there
has also been considerable activity in Europe. The new state-of-the-art Matera
Laser Ranging Observatory (MLRO) with both SLR and lunar ranging capability is
now operational with very impressive performance. The Zimmerwald system has
been completely rebuilt, with submission of operational data starting again in early
2000 and routine dual-frequency data starting during the past year. The SLR
station in Potsdam has been totally upgraded. The French Transportable Laser
Ranging System (FTLRS) was operated at the Ajaccio, Corsica in support of Jason
and other altimeter satellites, and is now operating at a site near Crete.
Sites in the United States have been
relatively stable over the past several years, with efforts continuing to
improve overall performance or reducing the cost of SLR operations. The Maui
site has been upgraded. A new LLR station is being built in Apache Point,
Washington. Work continues on the SLR2000 prototype with field test planned for
fall 2003.
ILRS Tracking Priorities and
Campaigns
The ILRS is currently tracking 25
artificial satellites including passive geodetic (geodynamics) satellites,
Earth remote sensing satellites, navigation satellites, and engineering
missions (see Table 2). The stations with lunar capability are also tracking
the lunar reflectors. In response to tandem missions (e.g. GRACE-A/-B) and
general overlapping schedules, stations have begun tracking satellites with
interleaving procedures. The network continues to support three GLONASS
satellites selected by the International GLONASS Pilot Project (IGLOS), a
project within the International GPS Service (IGS).
The ILRS assigns satellite
priorities in an attempt to maximize data yield on the full satellite complex
while at the same time placing greatest emphasis on the most immediate data
needs. Priorities provide guidelines for the network stations, but stations may
occasionally deviate from the priorities to support regional activities or
national initiatives and to expand tracking coverage in regions with multiple
stations. Tracking priorities are set by the Governing Board, based on
application to the Central Bureau and recommendation of the Missions Working
Group.
Since several remote sensing
missions have suffered failures in their active tracking systems or have
required in-flight recalibration, the ILRS has encouraged new missions with
high precision orbit requirements to include retroreflectors as a fail-safe
backup tracking system, to improve or strengthen overall orbit precision, and
to provide important intercomparison and calibration data with onboard
microwave navigation systems.
Figure 1. ILRS Network (as of May
2003)
Upcomming Missions
At one time, the main task of the
international SLR Network was the tracking of dedicated geodetic satellites
(LAGEOS, Starlette, etc.). Although we have had requests to revive tracking on
older satellites already in orbit (e.g., Beacon-C) to further refine the
gravity field with improved accuracy laser data, new requests for tracking are
now coming mainly for active satellites. The tracking approval process begins
with the submission of a Missions Support Request Form, which is accessible
through the ILRS web site. The form provides the ILRS with the following
information: a description of the mission objectives; mission requirements;
responsible individuals, organizations, and contact information; timeline;
satellite subsystems; and details of the retroreflector array and its placement
on the satellite. This form also outlines the early stages of intensive support
that may be required during the initial orbital acquisition and stabilization
and spacecraft checkout phases. A list of upcoming space missions that have
requested ILRS tracking support is summarized in Table 3 along with their
sponsors, intended application, and projected launch dates.
Table 2. ILRS Tracking Priorities
(as of May 2003)
|
Satellite Priorities |
|||||
|
Priority |
Mission |
Sponsor |
Altitude (km) |
Inclination (degrees) |
Comments |
|
1 |
GRACE-A, -B |
GFZ/JPL |
485-500 |
89 |
tandem mission |
|
2 |
CHAMP |
GFZ |
429-474 |
87.27 |
|
|
3 |
GFO-1 |
US Navy |
790 |
108.0 |
altimetry/no other tracking technique |
|
4 |
ENVISAT |
ESA |
796 |
98.6 |
tandem with ERS-2 tracking to
commence 40 days after launch |
|
5 |
ERS-2 |
ESA |
800 |
98.6 |
tandem with ENVISAT |
|
6 |
Jason |
NASA/CNES |
1,350 |
66.0 |
tandem with Topex* |
|
7 |
TOPEX/Poseidon |
NASA/CNES |
1,350 |
66.0 |
tandem with Jason* |
|
8 |
Starlette |
CNES |
815-1,100 |
49.8 |
|
|
9 |
Stella |
CNES |
815 |
98.6 |
|
|
10 |
METEOR-3M |
IPIE |
1000 |
99.64 |
|
|
11 |
Beacon-C |
NASA |
950-1300 |
41 |
upgraded from campaign to ongoing
mission (Jan-02) |
|
12 |
Ajisai |
NASDA |
1,485 |
50 |
|
|
13 |
LAGEOS-2 |
ASI/NASA |
5625 |
52.6 |
|
|
14 |
LAGEOS-1 |
NASA |
5850 |
109.8 |
|
|
15 |
Etalon-1 |
Russian Federation |
19,100 |
65.3 |
campaign extended indefinitely |
|
16 |
Etalon-2 |
Russian Federation |
19,100 |
65.2 |
campaign extended indefinitely |
|
17 |
GLONASS-89 |
Russian Federation |
19,100 |
65 |
replaced GLONASS-86 as of 20-Mar-03 |
|
18 |
GLONASS-87 |
Russian Federation |
19,100 |
65 |
replaced GLONASS-88 as of 20-Feb-02 |
|
19 |
GLONASS-84 |
Russian Federation |
19,100 |
65 |
replaced GLONASS-79 as of 22-Feb-01 |
|
20 |
GPS-35 |
US DoD |
20,100 |
54.2 |
|
|
21 |
GPS-36 |
US DoD |
20,100 |
55.0 |
|
|
Lunar Priorities |
|||||
|
Priority |
Retroreflector Array |
Sponsor |
Altitude (km) |
|
|
|
|
|
|
|
|
|
|
1 |
Apollo 15 |
NASA |
356,400 |
|
|
|
2 |
Apollo 11 |
NASA |
356,400 |
|
|
|
3 |
Apollo 14 |
NASA |
356,400 |
|
|
|
4 |
Luna 21 |
Russian Federation |
356,400 |
|
|
|
5 |
Luna 17 |
Russian Federation |
356,400 |
|
|
Once tracking support is approved by
the Governing Board, the Central Bureau works with the new missions to develop
a Mission Support Plan detailing the level of tracking, the schedule, the
points of contact, and the channels of communication. New missions normally
receive very high priority during the acquisition and checkout phases and are
then placed at a routine priority based on the satellite category and orbital
parameters. After launch, New Mission Reports with network tracking statistics
and operational comments are issued weekly. The Central Bureau monitors
progress to determine if adequate support is being provided. New mission
sponsors (users) are requested to report at the ILRS Plenary meetings on the
status of ongoing campaigns, including the responsiveness of the ILRS to their
needs and on progress towards achieving the desired science or engineering
results.
Table 3. Upcoming Missions (as of May 2003)
|
Mission Name |
Support Requester |
Mission Type |
Planned Launch Date |
Mission Duration |
Altitude (km) |
Inclination (deg) |
Mission Request Form Received |
|
ICESat (GLAS)† |
NASA USA |
Ice Balance, Oceans |
January 2003 |
3-5 years |
600 |
94 |
yes |
|
GP-B |
NASA-JPL USA |
Relativity |
October 2003 |
1-2 years |
400 |
90 |
yes |
|
NPOESS |
NASA, NOAA, DoD USA |
Atmosphere |
April 2013 |
7 years |
833 |
98.7 |
yes |
Note: †As of May 2003, ICESat tracking approved for only
selected ILRS stations
Meetings and Reports
The ILRS organizes semiannual
meetings of the Governing Board and General Assembly, which is open to all ILRS
Associates and Correspondents. The spring ILRS General Assemblies are generally
held in conjunction with the EGS Symposium in Nice, France, and focus more on
mission support. The fall meetings are more oriented toward SLR practitioners.
A summary of recent ILRS meetings is shown in Table 4. Detailed reports from
past meetings can be found on the ILRS web site.
Table 4. Recent ILRS Meetings (as
of May 2003)
|
|
Timeframe |
Location |
Meeting |
|
|
September 1999 |
The Hague, Netherlands |
3rd ILRS General
Assembly |
|
|
January 2000 |
Frankfurt, Germany |
Analysis Working Group |
|
|
April 2000 |
Nice, France |
4th ILRS General
Assembly |
|
|
May 2000 |
Delft, Netherlands |
Analysis Working Group |
|
|
November 2000 |
Matera, Italy |
12th International
Workshop on Laser Ranging |
|
|
|
|
5th ILRS General
Assembly |
|
|
March 2001 |
Nice, France |
6th ILRS General
Assembly and WG Meetings |
|
|
|
|
Analysis Working Group |
|
|
September 2001 |
Toulouse, France |
7th ILRS General
Assembly (canceled) |
|
|
April 2002 |
Nice, France |
7th ILRS General
Assembly and WG Meetings |
|
|
|
|
Analysis Working Group |
|
|
October 2002 |
Washington, D.C., USA |
13th International
Workshop on Laser Ranging |
|
|
|
|
8th ILRS General
Assembly and WG Meetings |
|
|
|
|
Analysis Working Group |
|
|
April 2003 |
Nice, France |
9th ILRS General
Assembly and WG Meetings |
|
|
|
|
Analysis Working Group |
The ILRS Annual Reports are
published yearly and summarize activities within the service each year. They
are available as hard copy from the CB or online at the ILRS Web Site.
ILRS Analysis Center reports and
inputs are used by the Central Bureau for weekly review of station performance
and to provide feedback to the stations when necessary. Special weekly reports
on on-going campaigns are issued by email. The CB also generates Quarterly
Performance Report Cards and posts them on the ILRS web site. The Report Cards
evaluate data quantity, data quality, and operational compliance for each tracking
station relative to ILRS minimum performance standards. A catalogue of
diagnostic methods, for use along the entire data chain starting with data
collection at the stations, has emerged from this process and will be made
available on the ILRS web site. The evaluation process has been helpful in
comparing results from different Analysis and Associate Analysis Centers, a
role soon to be assumed by the Analysis Working Group.