TY - GEN

T1 - Recent Activities of the GGOS Standing Committee on Performance Simulations and Architectural Trade-Offs (PLATO)

AU - Männel, Benjamin

AU - Thaller, Daniela

AU - Rothacher, Markus

AU - Böhm, Johannes

AU - Müller, Jürgen

AU - Glaser, Susanne

AU - Dach, Rolf

AU - Biancale, Richard

AU - Bloßfeld, Mathis

AU - Kehm, Alexander

AU - Pinzón, Iván Herrera

AU - Hofmann, Franz

AU - Andritsch, Florian

AU - Coulot, David

AU - Pollet, Arnaud

PY - 2018/4/11

Y1 - 2018/4/11

N2 - The Standing Committee on Performance Simulations and Architectural Trade-Offs (PLATO) was established by the Bureau of Networks and Observations of the Global Geodetic Observing System (GGOS) in order to support – by prior performance analysis – activities to reach the GGOS requirements for the accuracy and stability of the terrestrial reference frame. Based on available data sets and simulated observations for further stations and satellite missions the committee studies the impact of technique-specific improvements, new stations, and additional co-locations in space on reference frame products. Simulation studies carried out so far show the importance of the individual station performance and additional stations for satellite laser ranging, the perspectives for lunar laser ranging assuming additional stations and reflectors, and the significant impact of the new VGOS antennas. Significant progress is achieved in processing VLBI satellite tracking data. New insights in technique-specific error sources were derived based on real data from short baselines. Regarding co-location in space PLATO members confirmed that E-GRASP could fulfill the GGOS requirements with reaching a geocenter and scale accuracy and stability of 1 mm and 0.1 mm/year, respectively.

AB - The Standing Committee on Performance Simulations and Architectural Trade-Offs (PLATO) was established by the Bureau of Networks and Observations of the Global Geodetic Observing System (GGOS) in order to support – by prior performance analysis – activities to reach the GGOS requirements for the accuracy and stability of the terrestrial reference frame. Based on available data sets and simulated observations for further stations and satellite missions the committee studies the impact of technique-specific improvements, new stations, and additional co-locations in space on reference frame products. Simulation studies carried out so far show the importance of the individual station performance and additional stations for satellite laser ranging, the perspectives for lunar laser ranging assuming additional stations and reflectors, and the significant impact of the new VGOS antennas. Significant progress is achieved in processing VLBI satellite tracking data. New insights in technique-specific error sources were derived based on real data from short baselines. Regarding co-location in space PLATO members confirmed that E-GRASP could fulfill the GGOS requirements with reaching a geocenter and scale accuracy and stability of 1 mm and 0.1 mm/year, respectively.

KW - Co-location

KW - DORIS

KW - GGOS

KW - GNSS

KW - Reference frames

KW - SLR

KW - VLBI

UR - http://www.scopus.com/inward/record.url?scp=85052664457&partnerID=8YFLogxK

U2 - 10.1007/1345_2018_30

DO - 10.1007/1345_2018_30

M3 - Conference contribution

AN - SCOPUS:85052664457

SN - 9783030129149

T3 - International Association of Geodesy Symposia

SP - 161

EP - 164

BT - International Symposium on Advancing Geodesy in a Changing World - Proceedings of the IAG Scientific Assembly, 2017

A2 - Sánchez, Laura

A2 - Freymueller, Jeffrey T.

PB - Springer Verlag

T2 - Joint Scientific Assembly of the International Association of Geodesy and International Association of Seismology and Physics of the Earth’s Interior, IAG-IASPEI 2017

Y2 - 30 July 2017 through 4 August 2017

ER -