Display Time: Tuesday, 21 Apr 08:00–19:30
Attendance Time: Tuesday, 21 Apr 17:30–19:00
|
|
|
| GRACE Data Analysis
|
Hall A
|
|
A1
|
EGU2009-8483
F. Flechtner, Ch. Dahle, K.H. Neumayer, and R. König
Progress towards GFZ EIGEN-GRACE06S gravity field time series
|
|
|
|
A2
|
EGU2009-4319
A. Bordoni and V.R. Barletta
Effective localized mass distribution after pattern-recognition technique: extracting more informations from GRACE data (withdrawn)
|
|
|
|
A3
|
EGU2009-5241
H. YILDIZ, O.B. ANDERSEN, A. KILICOGLU, M. SIMAV, and O. LENK
Leakage Effects of Land Hydrology on the GRACE Derived Water Mass Estimates for the Black Sea
|
|
|
|
A4
|
EGU2009-4504
M. Naeimi and J. Mueller
On the spatial pattern of semi-annual signals present in GRACE gravity fields
|
|
|
|
A5
|
EGU2009-3611
S. Farzaneh and S Mirboroon
Analysis of numerical differentiation methods applied for determination of kinematic velocities for LEOs
|
|
|
|
A6
|
EGU2009-3613
S. Farzaneh, S. Mirboroon, and T. Yousefzadeh
kinematic velocities determination for Low Earth Orbit (LEO) satellite via kalman filter based on Global Positioning System (GPS) Receivers data
|
|
|
|
A7
|
EGU2009-6749
M. Mahooti
Orbit propagation of LEO satellites applying Multi-Step and Single-Step Integrators
|
|
|
|
A8
|
EGU2009-10061
M. Mahooti
Preliminary Orbit Determination Using the Gauss and the Double-R Iteration Methods
|
|
|
|
A9
|
EGU2009-7738
M. A. Sharifi and M. Mahooti
Static and Time-Varying Atmospheric Density Models for Drag Effect Modeling
|
|
|
|
A10
|
EGU2009-6690
S. Mirboroon and S. Farzaneh
Comparison of Kalman filter and Neural Network for orbit determination
|
|
|
|
|
| GOCE Data Analysis
|
|
|
|
A11
|
EGU2009-4463
S.M. Rispens and J. Bouman
External calibration of the GOCE gradiometer at acceleration level
|
|
|
|
A12
|
EGU2009-5353
R. Pail, H. Goiginger, R. Mayrhofer, E. Höck, W.-D. Schuh, J.M. Brockmann, I. Krasbutter, T. Fecher, and T. Gruber
GOCE gravity field simulation based on actual mission scenario
|
|
|
|
A13
|
EGU2009-8839
F. Migliaccio and M. Reguzzoni
A recent test for the space wise approach based on GOCE simulated data of Mission Operational Phase 1
|
|
|
|
A14
|
EGU2009-11160
P. Knudsen and J. Benveniste
The GOCE User Toolbox - GUT - An ESA effort to facilitate the use of GOCE Level-2 products.
|
|
|
|
A15
|
EGU2009-2980
A. Bezdek, J. Klokocnik, J. Kostelecky, R. Floberghagen, and Ch. Gruber
Simulation of free fall and resonances in the forthcoming GOCE mission
|
|
|
|
A16
|
EGU2009-6879
J. Bouman and W. Bosch
Gravity gradients from satellite altimeter data for GOCE validation
|
|
|
|
A17
|
EGU2009-6925
Z. C. Luo, G. Yang, B. Zhong, and Y. L. Wu
Tidal Effects on GOCE Satellite Gravity Gradiometry
|
|
|
|
A18
|
EGU2009-8024
I. Vigo, J.M. Sánchez Reales, D. García, and B.F. Chao
Geostrophy in the Mediterranean Sea based on GOCE geoid and altimetry data. (withdrawn)
|
|
|
|
A19
|
EGU2009-3185
M. Eshagh
Optimal combination of integral solutions of gradiometric boundary value problem
|
|
|
|
A20
|
EGU2009-6669
A. Schlicht, S. Lange, and R. Rummel
GOCE Research in Germany
|
|
|
|
|
| Future Gravity Field Missions
|
|
|
|
A21
|
EGU2009-1568
S Bettadpur, F Wang, and T Pekker
Assessment of GRACE signal and noise using high-fidelity numerical simulations
|
|
|
|
A22
|
EGU2009-529
B. Elsaka and K.H. Ilk
Simulated Multiple Formation Flights for Future Gravity Field Recovery
|
|
|
|
A23
|
EGU2009-9016
M. Dehne, B. Sheard, F. Guzmán Cervantes, G. Heinzel, and K. Danzmann
Laser Interferometer for a spaceborne mapping of the Earth
|
