ILRS WorkshopEastbourne, UK October 3 -7, 2005 Global Geodetic Observing System (GGOS) A project of the IAG.

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ILRS WorkshopEastbourne, UK October 3 -7, 2005 Global Geodetic Observing System (GGOS) A project of the IAG

ILRS WorkshopEastbourne, UK October 3 -7, 2005 Global Geodetic Observing System (GGOS) Mission Ensure the collection, archiving and accessibility of all geodetic observations and models as well as the robustness of the estimated parameters in the three fields of geodesy (1) geometry and kinematics, (2) orientation and rotation, and (3) gravity field of the Earth. Emphasize the consistency between the different geodetic standards, models and products, and the maintenance of stable geometric and gravimetric reference frames. SLR is a key element for these objectives because it contributes to all three fields. Due to the very long observation and derived parameter series it guarantees the long-term stability more than any other geodetic technique.

ILRS WorkshopEastbourne, UK October 3 -7, 2005

ILRS WorkshopEastbourne, UK October 3 -7, 2005 GGOS Highlights over the Last Year Activities underway to get GGOS integrated with several international science and political activities GGOS website at Preliminary Draft Plan accepted at the GGOS Session at IAG in Cairns in August 22 – 26 Presentations and Working Group Posters given at IAG New leadership – Retiring Chair Chris Reigber replaced by Marcus Rothacher Ruth Neilan and Han-Peter Plag chosen as Co-chairs Mike Pearlman, Ruth Neilan, C.K. Shum, Hermann Drewes, Susanna Zerbini, Bernd Richter, and Chris Rizos selected as IAG representatives to GEO (GEOSS)

ILRS WorkshopEastbourne, UK October 3 -7, 2005 GGOS Ground Networks and Communications Working Group Task: “working with the IAG Measurement Services to develop a strategy for building, integrating, and maintaining the fundamental network of instrument and supporting infrastructure in a sustainable way to satisfy the long-term (10 – 20 years) requirements identified by the GGOS Science Council.” Early stops in this process: –quantify the “quality” of what the current networks are producing –settle on a strategy to design the geodetic network using our understanding of where we are, where the techniques are going, and what future scientific requirements we will be asked to support.

ILRS WorkshopEastbourne, UK October 3 -7, 2005 Members of the Working Group GGOS: Marcus Rothacher, Ruth Neilan IVS: Chopo Ma, Zinovy Malkin IGS: Angie Moore, Norman Beck ILRS: Mike Pearlman, Werner Gurtner IDS: Pascal Willis IGFS: Rene Forsberg, Steve Kenyon Data Centers: Carey Noll ITRF and Local Survey: Zuheir Altamimi, Jinling Li Analysis: Erricos Pavlis, Frank Lemoine, John Ries Oceanography: Wolfgang Bosch

ILRS WorkshopEastbourne, UK October 3 -7, 2005 How do we optimize the networks? Focus primarily on the Reference Frame; Target (initially) mm accuracy for relatively short time periods; Long time series of data is critical to the stability of the reference frames; maintain high-producing, well-established; Degradation of the reference frames may be slow as networks degrade; the “memory factor” may be strong; Reference Frame relies on colocation of techniques with accurate intertechnique ground surveys; Using the most recent International Terrestrial and Celestial Reference Frames (ITRF, ICRF), examine the contribution of each technique; Optimize each network (SLR, VLBI, DORIS, GPS/GNSS based on its strongest or unique contributions to the reference frames and the other required geodetic products. –VLBI : Nutation, UT1, Polar Motion –SLR: Earth Center of Mass, Scale, POD on passive satellites, etc –GPS: Station position and motion; POD for LEO satellites, Navigation –DORIS: POD for DORIS satellites Using simulation techniques examine how the key products for each technique improve as –Network geometry improves; –Station performance improves; –Satellites are added Commitment: Provide first report on network design at EGU in Vienna in April 2006

ILRS WorkshopEastbourne, UK October 3 -7, 2005 Anticipated Technique Improvements SLR Better global distribution; Kilohertz ranging Autonomous operations Improvements in control systems for better interleaving of satellites Inter-station scheduling to enhance satellite coverage More compact retroreflector arrays to improve accuracy Continuous data flow and more rapid availability of products Transponder operations for terrestrial and extraterrestrial applications Communications applications GPS New satellites with GNSS signal GLONASS and Galileo Improved processing (to provide near real time orbits?) VLBI Improve automation to overcome observation gaps Improvements in the recorders DORIS Smaller antenna and fully digitized back-ends DORIS G3 Beacons Launch of additional satellites with DORIS tracking (e.g., Cryosat); Dual channel tracking capability allowing a densification of the network

ILRS WorkshopEastbourne, UK October 3 -7, 2005 Poster Papers Presented at Cairns “The International Laser Ranging Service and its Support for GGOS”, M. Pearlman, C. Noll, W. Gurtner, R. Noomen, ( “GGOS Working Group on Networks, Communication, and Infrastructure”, M. Pearlman, et al, (