|
1. Realization and New Perspectives of VLBI2010
|
|
|
Bill Petrachenko
|
VLBI2010: An Overview
|
|
|
Richard Porcas
|
VLBI2010: The Astro-Geo Connection
|
|
|
Brian Corey
|
Differences Between VLBI2010 and S/X Hardware
|
|
|
Niell et al.
|
The NASA VLBI2010 Proof-of-concept Demonstration and Future Plans
|
|
|
Gino Tuccari et al.
|
DBBC VLBI2010
|
|
|
Hayo Hase et al.
|
Differences Between S/X and VLBI2010 Operation
|
|
|
Christopher Beaudoin, Arthur Niell
|
Post-correlation Processing for the VLBI2010 Proof-of-concept System
|
|
|
Thomas Hobiger et al.
|
GPU Based Software Correlators – Perspectives for VLBI2010
|
|
|
Arnaud Collioud, Patrick Charlot
|
VLBI2010 Imaging and Structure Corrections
|
|
|
Jim Lovell et al.
|
The AuScope Project and Trans-Tasman VLBI
|
|
|
Atsutoshi Ishii et al.
|
Current Status of the Development of a Transportable and Compact VLBI System by NICT
and GSI
|
|
|
Oleg Titov
|
VLBI2020: From Reality to Vision
|
|
|
John Dickey
|
How and Why to Do VLBI on GPS
|
|
|
Vincenza Tornatore et al.
|
Planning of an Experiment for VLBI Tracking of GNSS Satellites
|
|
2. Network Stations, Operation Centers, Correlators
|
|
|
John Gipson
|
An Introduction to Sked
|
|
|
Cynthia Thomas et al.
|
The Composition of the Master Schedule
|
|
|
John Gipson et al.
|
Coordinating, Scheduling, Processing and Analyzing IYA09
|
|
|
Hyunhee Ju et al.
|
The State and Development Direction of the Geodetic VLBI Station in Korea
|
|
|
Jesús Gómez González et al.
|
RAEGE: An Atlantic Network of Geodynamical Fundamental Stations
|
|
|
Andrey Finkelstein et al.
|
The New Generation Russian VLBI Network
|
|
|
Line Langkaas et al.
|
New Fundamental Station in Ny-Ålesund
|
|
|
Sergei Gulyaev et al.
|
Characterization and Calibration of the 12-m Antenna in Warkworth, New Zealand
|
|
|
Rüdiger Haas, Sten Bergstrand
|
COLD MAGICS – Continuous Local Deformation Monitoring of an Arctic Geodetic Fundamental
Station
|
|
|
Axel Nothnagel et al.
|
Homologous Deformation of the Effelsberg 100-m Telescope Determined with a Total
Station
|
|
|
Li Liu et al.
|
Analysis of the GPS Observations of the Site Survey at Sheshan 25-m Radio Telescope
in August 2008
|
|
|
Alexander Neidhardt et al.
|
Permanent Monitoring of the Reference Point of the 20m Radio Telescope Wettzell
|
|
|
Benno Schmeing et al.
|
Proof-of-Concept Studies for a Local Tie Monitoring System
|
|
|
Shigeru Matsuzaka et al.
|
Ultra-rapid dUT1 Measurements on Japan-Fennoscandian Baselines – Application to
24-hour Sessions
|
|
|
Andrey Finkelstein et al.
|
The Quasar Network Observations in e-VLBI Mode Within the Russian Domestic VLBI Programs
|
|
|
Alan Fey et al.
|
Implementation and Testing of VLBI Software Correlation at the USNO
|
|
|
Weimin Zheng et al.
|
The Software Correlator of the Chinese VLBI Network
|
|
|
David Gordon
|
RDV77 VLBA Hardware/Software Correlator Comparisons
|
|
|
Igor Surkis et al.
|
The IAA RAS Correlator First Results
|
|
|
Guifré Molera Calvés et al.
|
First Results of Venus Express Spacecraft Observations with Wettzell
|
|
|
Oleg Titov et al.
|
CRF Network Simulations for the South
|
|
|
Gennady Ilin et al.
|
About the Compatibility of DORIS and VLBI Observations
|
|
3. VLBI Data Structure, Analysis Strategies and Software
|
|
|
John Gipson
|
IVS Working Group 4: VLBI Data Structures
|
|
|
Alan Whitney et al.
|
VLBI Data Interchange Format (VDIF)
|
|
|
Sergei Bolotin et al.
|
Development of a New VLBI Data Analysis Software
|
|
|
Hana Spicakova et al.
|
Estimation of Geodetic and Geodynamical Parameters with VieVS
|
|
|
Halfdan Kierulf et al.
|
VLBI Analysis with the Multi-technique Software GEOSAT
|
|
|
Thomas Hobiger et al.
|
c5++ – Multi-technique Analysis Software for Next Generation Geodetic Instruments
|
|
|
Lucia Plank et al.
|
Comparison Campaign of VLBI Data Analysis Software – First Results
|
|
|
Sarah Böckmann et al.
|
Correlations Between the Contributions of Individual IVS Analysis Centers
|
|
|
Dan MacMillan et al.
|
VLBI-SLR Combination Solution Using GEODYN
|
|
|
Susana García-Espada et al.
|
Application of Raytracing through the High Resolution Numerical Weather Model HIRLAM
for the Analysis of European VLBI
|
|
|
Ryuichi Ichikawa et al.
|
Atmospheric Delay Reduction Using KARAT for GPS Analysis and Implications for VLBI
|
|
|
David Gordon
|
Use of GPS TEC Maps for Calibrating Single Band VLBI Sessions
|
|
|
Sergey Kurdubov, Elena Skurikhina
|
Antenna Axis Offset Estimation from VLBI
|
|
|
Johannes Böhm et al.
|
Prospects for UT1 Measurements from VLBI Intensive Sessions
|
|
|
Karen Baver, John Gipson
|
Strategies for Improving the IVS-INT01 UT1 Estimates
|
|
|
Zinovy Malkin
|
CPO Prediction: Accuracy Assessment and Impact on UT1 Intensive Results
|
|
|
Masachika Kijima
|
Application of Geodetic VLBI Data to Obtaining Long-term Light Curves for Astrophysics
|
|
4. Interpretation of VLBI Results in Geodesy, Astrometry and
Geophysics
|
|
|
Chopo Ma
|
The Second International Celestial Reference Frame (ICRF2)
|
|
|
Karine Le Bail, David Gordon
|
Time-dependent Selection of an Optimal Set of Sources to Define a Stable Celestial
Reference Frame
|
|
|
Chris Jacobs et al.
|
X/Ka Celestial Frame Improvements: Vision to Reality
|
|
|
Vladimir Zharov et al.
|
Long-term Variations of the EOP and ICRF2
|
|
|
Gerald Engelhardt, Volkmar Thorandt
|
Long-term Stability of Radio Sources in VLBI Analysis
|
|
|
Ed Fomalont et al.
|
The Position/Structure Stability of Four ICRF2 Sources
|
|
|
Chris Jacobs et al.
|
Rotational Alignment Altered by Source Position Correlations
|
|
|
Géraldine Bourda et al.
|
Global VLBI Observations of Weak Extragalactic Radio Sources: Imaging Candidates to
Align the VLBI and Gaia Frames
|
|
|
María Rioja, Richard Dodson
|
Astrometric Core-shifts at the Highest Frequencies
|
|
|
Victor Lvov et al.
|
Forthcoming Occultations of Astrometric Radio Sources by Planets
|
|
|
Hayley Bignall et al.
|
Finding Extremely Compact Sources Using the ASKAP VAST Survey
|
|
|
Younghee Kwak et al.
|
The First Experiment with VLBI-GPS Hybrid System
|
|
|
Li Guo et al.
|
Ionospheric Response to the Total Solar Eclipse of 22 July 2009 as Deduced from
VLBI and GPS Data
|
|
|
Robert Heinkelmann, Christian Schwatke
|
The Tropospheric Products of the International VLBI Service for Geodesy and Astrometry
|
|
|
Joel Botai et al.
|
Extracting Independent Local Oscillatory Geophysical Signals by Geodetic Tropospheric
Delay
|
|
|
Thomas Artz et al.
|
Reliability and Stability of VLBI-derived Sub-daily EOP Models
|
|
|
Ulla Kallio, Markku Poutanen
|
Simulation of Local Tie Accuracy on VLBI Antennas
|
|
|
Carsten Rieck et al.
|
VLBI and GPS-based Time-transfer Using CONT08 Data
|
|
5. Progress in Technology Development
|
|
|
Alan Whitney et al.
|
The Mark 5C VLBI Data System
|
|
|
Kazuhiro Takefuji et al.
|
Next-generation A/D Sampler ADS3000+ for VLBI2010
|
|
|
Xiuzhong Zhang et al.
|
VLBI Technology Development at SHAO
|
|
|
Renjie Zhu et al.
|
The Progress of CDAS
|
|
|
Gino Tuccari et al.
|
DBBC2 Backend: Status and Development Plan
|
|
|
Arthur Niell et al.
|
RDBE Development and Progress
|
|
|
Leonid Fedotov et al.
|
The Digital Data Acquisition System for the Russian VLBI Network of New Generation
|
|
|
Se-Jin Oh et al.
|
First Phase Development of Korea-Japan Joint VLBI Correlator and Its Current Progress
|
|
|
Mamoru Sekido et al.
|
Development of an e-VLBI Data Transport Software Suite with VDIF
|
|
|
Miroslav Pantaleev et al.
|
Cryogenic Integration of the 214 GHz Eleven Feed in a Wideband Receiver for VLBI2010
|
|
|
Christopher Beaudoin et al.
|
Development of a Compact Eleven Feed Cryostat for the Patriot 12-m Antenna System
|
|
|
Alexander Ipatov et al.
|
Radio Telescope Focal Container for the Russian VLBI Network of New Generation
|
|
|
Dmitrij Ivanov et al.
|
Experiment of Injecting Phase Cal Ahead of the Feed: First Results
|
|
|
Bill Petrachenko
|
The Impact of Radio Frequency Interference (RFI) on VLBI2010
|
|
|
Alexander Neidhardt et al.
|
E-control: First Public Release of Remote Control Software for VLBI Telescopes
|
|
|
Martin Ettl et al.
|
The Wettzell System Monitoring Concept and First Realizations
|
|
|
Hongjong Oh et al.
|
Round-trip System Available to Measure Path Length Variation in Korea VLBI
System for Geodesy
|
