Flechtner, Frank
Observation of the System Earth from Space - CHAMP, GRACE, GOCE and future missions
Part I. LOTSE-CHAMP/GRACE
1. LOTSE-CHAMP/GRACE: An Interdisciplinary Research Project for Earth Observation from Space
Frank Flechtner
2. Improvement in GPS Orbit Determination at GFZ
Grzegorz Michalak, Daniel König, Karl-Hans Neumayer, Christoph Dahle
3. Using Accelerometer Data as Observations
Karl-Hans Neumayer
4. GFZ RL05: An Improved Time-Series of Monthly GRACE Gravity Field Solutions
Christoph Dahle, Frank Flechtner, Christian Gruber, Daniel König, Rolf König, Grzegorz Michalak, Karl-Hans Neumayer
5. GRACE Gravity Modeling Using the Integrated Approach
Daniel König , Christoph Dahle
6. Comparison of Daily GRACE Solutions to GPS Station Height Movements
Annette Eicker, Enrico Kurtenbach, Jürgen Kusche, Akbar Shabanloui
7. Identification and Reduction of Satellite-Induced Signals in GRACE Accelerometer Data
Nadja Peterseim, Anja Schlicht, Jakob Flury, Christoph Dahle
8. Reprocessing and Application of GPS Radio Occultation Data from CHAMP and GRACE
Stefan Heise, Jens Wickert, Christina Arras, Georg Beyerle, Antonia Faber, Grzegorz Michalak, Torsten Schmidt, Florian Zus
Part II. REAL–GOCE
9. Real Data Analysis GOCE (REAL GOCE): A Retrospective Overview
Wolf-Dieter Schuh, Boris Kargoll
10. GOCE Gravity Gradients: Reprocessed Gradients and Spherical Harmonic Analyses
Michael Murböck, Claudia Stummer, Roland Pail, Weiyong Yi, Thomas Gruber, Reiner Rummel
11. GOCE Gravity Gradients: Combination with GRACE and Satellite Altimetry
Johannes Bouman, Martin Fuchs, Verena Lieb, Wolfgang Bosch, Denise Dettmering, Michael Schmidt
12. Incorporating Topographic-Isostatic Information into GOCE Gravity Gradient Processing
Thomas Grombein, Kurt Seitz, Bernhard Heck
13. Global Gravity Field Models from Different GOCE Orbit Products
Akbar Shabanloui, Judith Schall, Annette Eicker, Jürgen Kusche
14. Adjustment of Digital Filters for Decorrelation of GOCE SGG Data
Ina Krasbutter, Jan Martin Brockmann, Boris Kargoll, Wolf-Dieter Schuh
15. Stochastic Modeling of GOCE Gravitational Tensor Invariants
Jianqing Cai, Nico Sneeuw
16. Cross-Overs Assess Quality of GOCE Gradients
Phillip Brieden, Jürgen Müller
17. Consistency of GOCE Geoid Information with in-situ Ocean and Atmospheric Data, Tested by Ocean State Estimation
Frank Siegismund, Armin Köhl, Detlef Stammer
18. Regional Validation and Combination of GOCE Gravity Field Models and Terrestrial Data
Christian Voigt, Heiner Denker
19. Height System Unification Based on GOCE Gravity Field Models: Benefits and Challenges
Axel Rülke, Gunter Liebsch, Uwe Schäfer, Uwe Schirmer, Johannes Ihde
20. EIGEN-6C: A High-Resolution Global Gravity Combination Model Including GOCE Data
Richard Shako, Christoph Förste, Oleh Abrikosov, Sean Bruinsma, Jean-Charles Marty, Jean-Michel Lemoine, Frank Flechtner, Hans Neumayer, Christoph Dahle
Part III. Future Missions
21. Future Gravity Field Satellite Missions
Tilo Reubelt, Nico Sneeuw, Siavash Iran Pour, Marc Hirth, Walter Fichter, Jürgen Müller, Phillip Brieden, Frank Flechtner, Jean- Claude Raimondo, Jürgen Kusche, Basem Elsaka, Thomas Gruber, Roland Pail, Michael Murböck, Bernhard Doll, Rolf Sand, Xinxing Wang, Volker Klein, Matthias Lezius, Karsten Danzmann, Gerhard Heinzel, Benjamin Sheard, Ernst Rasel, Michael Gilowski, Christian Schubert, Wolfgang Schäfer, Andreas Rathke, Hansjörg Dittus, Ivanka Pelivan
Keywords: Earth Sciences, Geophysics/Geodesy, Aerospace Technology and Astronautics, Remote Sensing/Photogrammetry
- Author(s)
- Flechtner, Frank
- Sneeuw, Nico
- Schuh, Wolf-Dieter
- Publisher
- Springer
- Publication year
- 2014
- Language
- en
- Edition
- 2014
- Series
- Advanced Technologies in Earth Sciences
- Page amount
- 15 pages
- Category
- Natural Sciences
- Format
- Ebook
- eISBN (PDF)
- 9783642321351