| Combining altimetric/gravimetric and ocean model mean dynamic topography models in the GOCINA region | p. 3 |
| Error characteristics of dynamic topography models derived from altimetry and GOCE gravimetry | p. 11 |
| Detecting ocean currents from satellite altimetry, satellite gravity and ocean data | p. 17 |
| Sea level in the British Isles : combining absolute gravimetry and continuous GPS to infer vertical land movements at tide gauges | p. 23 |
| Snow accumulation and snowmelt monitoring in Greenland and Antarctica | p. 31 |
| Estimating recent global sea level changes | p. 39 |
| On the low-frequency variability in the Indian Ocean | p. 47 |
| Satellite altimetry : multi-mission cross calibration | p. 51 |
| Assessment of recent tidal models in the Mediterranean Sea | p. 57 |
| Scale-based comparison of sea level observations in the North Atlantic from satellite altimetry and tide gauges | p. 63 |
| European sea level monitoring : implementation of ESEAS quality control | p. 67 |
| Brazilian vertical datum monitoring - vertical land movements and sea level variations | p. 71 |
| Tide gauge monitoring using GPS | p. 75 |
| Determination of inland lake level and its variations in China from satellite altimetry | p. 80 |
| Sea surface variability of upwelling area northwest of Luzon, Philippines | p. 84 |
| An experiment of precise gravity measurements on ice sheet, Antarctica | p. 88 |
| Status of DORIS stations in Antarctica for precise geodesy | p. 94 |
| High-harmonic gravity signatures related to post-glacial rebound | p. 103 |
| GPS/GLONASS orbit determination based on combined microwave and SLR data analysis | p. 115 |
| BIFROST : noise properties of GPS time series | p. 123 |
| Discrete crossover analysis | p. 131 |
| A comparative analysis of uncertainty modelling in GPS data analysis | p. 137 |
| Looking for systematic error in scale from terrestrial reference frames derived from DORIS data | p. 143 |
| WVR calibration applied to European VLBI observing sessions | p. 152 |
| Frontiers in the combination of space geodetic techniques | p. 158 |
| Modifying the stochastic model to mitigate GPS systematic errors in relative positioning | p. 166 |
| GPS ambiguity resolution and validation under multipath effects : improvements using wavelets | p. 172 |
| An empirical stochastic model for GPS | p. 179 |
| Feeding neural network models with GPS observations : a challenging task | p. 186 |
| Spatial spectral inversion of the changing geometry of the Earth from SOPAC GPS data | p. 194 |
| Improved processing method of UEGN-2002 gravity network measurements in Hungary | p. 202 |
| Spectra of rapid oscillations of Earth rotation parameters determined during the CONT02 campaign | p. 208 |
| On the establishing project of Chinese surveying and control network for Earth-orbit satellite and deep space detection | p. 215 |
| Constructing a system to monitor the data quality of GPS receivers | p. 222 |
| The use of mascons to resolve time-variable gravity from GRACE | p. 231 |
| GRACE time-variable gravity accuracy assessment | p. 237 |
| Combination of multi-satellite altimetry data with CHAMP and GRACE EGMs for geoid and sea surface topography determination | p. 244 |
| A new methodology to process airborne gravimetry data : advances and problems | p. 251 |
| Ideal combination of deflection components and gravity anomalies for precise geoid computation | p. 259 |
| SRTM evaluation in Brazil and Argentina with emphasis on the Amazon region | p. 266 |
| On the estimation of the regional geoid error in Canada | p. 272 |
| A validation procedure for satellite orbits and force function models based on a new balance equation approach | p. 280 |
| Combining gravity and topographic data for local gradient modelling | p. 288 |
| Numerical implementation of the gravity space approach - proof of concept | p. 296 |
| Local gravity field modelling with multi-pole wavelets | p. 303 |
| Accuracy assessment of the SRTM 90m DTM over Greece and its implications to geoid modelling | p. 309 |
| High-resolution local gravity field determination at the sub-millimeter level using a digital zenith camera system | p. 316 |
| A data-adaptive design of a spherical basis function network for gravity field modelling | p. 322 |
| Global gravity field recovery by merging regional focusing patches : an integrated approach | p. 329 |
| External calibration of GOCE SGG data with terrestrial gravity data : a simulation study | p. 337 |
| Towards an optimal combination of satellite data and prior information | p. 345 |
| Kinematic and highly reduced dynamic LEO orbit determination for gravity field estimation | p. 354 |
| On the combination of terrestrial gravity data with satellite gradiometry and airborne gravimetry treated in terms of boundary-value problems | p. 362 |
| A direct method and its numerical interpretation in the determination of the Earth's gravity field from terrestrial data | p. 370 |
| Comparison of high precision geoid models in Switzerland | p. 377 |
| GOCE : a full-gradient simulated solution in the space-wise approach | p. 383 |
| The determination of the effect of topographic masses on the second derivatives of gravity potential using various methods | p. 391 |
| Density effects on Rudzki, RTM and Airy-Heiskanen reductions in gravimetric geoid determination | p. 397 |
| Combined modeling of the Earth's gravity field from GRACE and GOCE satellite observations : a numerical study | p. 403 |
| Analytical solution of Newton's integral in terms of polar spherical coordinates | p. 410 |
| A new high-precision gravimetric geoid model for Argentina | p. 416 |
| Local gravity field modeling using surface gravity gradient measurements | p. 424 |
| Absolute gravity measurements in the southern Indian Ocean | p. 433 |
| Slow slip events on the Hikurangi subduction interface, New Zealand | p. 438 |
| A geodetic measurement of strain variation across the Central Southern Alps, New Zealand | p. 445 |
| New analysis of a 50 years tide gauge record at Cananela (SP-Brazil) with the VAV tidal analysis program | p. 453 |
| Atmospheric mass flow reduction for terrestrial absolute gravimetry in the Fennoscandian land uplift network | p. 461 |
| Tilt observations around the KTB-site/Germany : monitoring and modelling of fluid induced deformation of the upper crust of the Earth | p. 467 |
| Understanding time-variable gravity due to core dynamical processes with numerical geodynamo modelling | p. 473 |
| A new height datum for Iran based on the combination of the gravimetric and geometric geoid models | p. 480 |
| Monthly mean water storage variations by the combination of GRACE and a regional hydrological model : application to the Zambezi River | p. 488 |
| The use of smooth piecewise algebraic approximation in the determination of vertical crustal movements in eastern Canada | p. 496 |
| Hydrological signals in gravity - foe or friend? | p. 504 |
| Applications of the KSM03 harmonic development of the tidal potential | p. 511 |
| Continental hydrology retrieval from GPS time series and GRACE gravity solutions | p. 517 |
| Gravity changes in northern Europe as observed by GRACE | p. 523 |
| Investigations about earthquake swarm areas and processes | p. 528 |
| Sea level and gravity variations after the 2004 Sumatra earthquake observed at Syowa Station, Antarctica | p. 536 |
| Improved determination of the atmospheric attraction with 3D air density data and its reduction on ground gravity measurements | p. 541 |
| Solid Earth deformations induced by the Sumatra earthquakes of 2004-2005 | p. 549 |
| Environmental effects in time-series of gravity measurements at the Astrometric-Geodetic Observatorium Westerbork (The Netherlands) | p. 557 |
| Numerical models of the rates of change of the geoid and orthometric heights over Canada | p. 563 |
| Optimal seismic source mechanisms to excite the Slichter mode | p. 571 |
| Recent dynamic crustal movements in the Tokai region, central Japan, observed by GPS measurements | p. 578 |
| New theory for calculating strains changes caused by dislocations in a spherically symmetric Earth | p. 585 |
| Advances in terrestrial reference frame computations | p. 595 |
| The status and future of the international celestial reference frame | p. 603 |
| Is scintillation the key to a better celestial reference frame? | p. 610 |
| Improvement and extension of the international celestial reference frame in the Southern Hemisphere | p. 616 |
| Limitations in the NZGD2000 deformation model | p. 624 |
| Implementing localised deformation mdoels into a semi-dynamic datum | p. 631 |
| Definition and realisation of the SIRGAS vertical reference system within a globally unified height system | p. 638 |
| Tests on integrating gravity and leveling to realize SIRGAS vertical reference system in Brazil | p. 646 |
| Accessing the new SIRGAS2000 reference frame through a modernized Brazilian active control network | p. 653 |
| Deformations control for the Chilean part of the SIRGAS 2000 frame | p. 660 |
| Estimation of horizontal movement function for geodetic- or mapping-oriented maintenance in the Taiwan area | p. 665 |
| Activities related to the materialization of a new vertical system for Argentina | p. 671 |
| An analysis of errors introduced by the use of transformation grids | p. 677 |
| Preliminary analysis in view of the ITRF2005 | p. 685 |
| Long term consistency of multi-technique terrestrial reference frames, a spectral approach | p. 692 |
| Science rationale of the global geodetic observing system (GGOS) | p. 703 |
| GGOS and its user requirements, linkage, and outreach | p. 711 |
| GGOS working group on ground networks and communications | p. 719 |
| Linking the global geodetic observing system (GGOS) to the integrated geodetic observing strategy partnership (IGOS-P) | p. 727 |
| IVS high accurate products for the maintenance of the global reference frames as contribution to GGOS | p. 735 |
| The international laser ranging service and its support for GGOS | p. 741 |
| The Nordic geodetic observing system (NGOS) | p. 749 |
| VLBI2010 : a vision for future geodetic VLBI | p. 757 |
| Combination of different geodetic techniques for signal detection - a case study at fundamental station Wettzell | p. 760 |
| A multi-scale monitoring concept for landslide disaster mitigation | p. 769 |
| High-speed laser scanning for near real-time monitoring of structural deformations | p. 776 |
| A method for modelling the non-stationary behaviour of structures in deformation analysis | p. 782 |
| Volcano deformation monitoring in Indonesia : status, limitations and prospects | p. 790 |
| Vehicle classification and traffic flow estimation from airborne Lidar/CCD data | p. 799 |
| Fine analysis of lever arm effects in moving gravimetry | p. 809 |
| Improving LiDAR-based surface reconstruction using ground control | p. 817 |
| The use of GPS for disaster monitoring of suspension bridges | p. 825 |
| The impact of mapping functions for the neutral atmosphere based on numerical weather models in GPS data analysis | p. 837 |
| Validation of improved atmospheric refraction models for satellite laser ranging (SLR) | p. 844 |
| Correlation analyses of horizontal gradients of atmospheric wet delay versus wind direction and velocity | p. 853 |
| Ionospheric scintillation effects on GPS carrier phase positioning accuracy of auroral and sub-auroral latitudes | p. 859 |
| The imapct of severe ionospheric conditions on the GPS hardware in the southern polar region | p. 867 |
| Preliminary research on imaging the ionosphere using CIT and China permanent GPS tracking station data | p. 876 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
