Add to ORKGThe purpose of the Russian VLBI "Quasar" Network is to carry out astrometrical and geodynamical investigations. Since 2006 purely domestic observational programs with data processing at the IAA correlator have been carried out. To maintain these geodynamical programs e-VLBI technology is being developed and tested. This paper describes the IAA activity of developing a real-time VLBI system using high-speed digital communication links
Several tests to observe signals transmitted by GLONASS (GLObal NAvigation Satellite System) satelli...
This report of the Technology Coordinator includes the following: 1) continued work to implement the...
Two spacecraft dedicated to Very Long Baseline Interferometry (VLBI) will be launched in 1996 and 19...
The activities of the six-station IAA RAS correlator include regular processing of national geodetic...
The latency of UT1 measurement with Very Long Baseline Interferometry (VLBI) has been greatly reduce...
The capabilities of the European very long baseline interferometry (VLBI) network are summarized. Th...
In 2009 the national Russian VLBI observations were processed by the new correlator ARC (Astrometric...
We give a short overview on the current status of near real-time monitoring of UT1 with geodetic VLB...
Space very long baseline interferometry (SVLBI) experiments using a TDRSS satellite have successfull...
During 2010 the Onsala Space Observatory contributed as an IVS Network Station to 27 VLBI sessions o...
This report presents an overview of IAA VLBI Analysis Center activities during 2012 and the plans fo...
A brief description of the technical characteristics of space VLBI is made, emphasizing the VLBI cro...
This paper presents the past, present and future status of the Russian VLBI network “Quasar”. This n...
The K5/VSSP software correlator (Figure 1), located in Tsukuba, Japan, is operated by the Geospatial...
This report presents an overview of the SAI VLBI Analysis Center activities during 2012 and the plan...
Several tests to observe signals transmitted by GLONASS (GLObal NAvigation Satellite System) satelli...
This report of the Technology Coordinator includes the following: 1) continued work to implement the...
Two spacecraft dedicated to Very Long Baseline Interferometry (VLBI) will be launched in 1996 and 19...
The activities of the six-station IAA RAS correlator include regular processing of national geodetic...
The latency of UT1 measurement with Very Long Baseline Interferometry (VLBI) has been greatly reduce...
The capabilities of the European very long baseline interferometry (VLBI) network are summarized. Th...
In 2009 the national Russian VLBI observations were processed by the new correlator ARC (Astrometric...
We give a short overview on the current status of near real-time monitoring of UT1 with geodetic VLB...
Space very long baseline interferometry (SVLBI) experiments using a TDRSS satellite have successfull...
During 2010 the Onsala Space Observatory contributed as an IVS Network Station to 27 VLBI sessions o...
This report presents an overview of IAA VLBI Analysis Center activities during 2012 and the plans fo...
A brief description of the technical characteristics of space VLBI is made, emphasizing the VLBI cro...
This paper presents the past, present and future status of the Russian VLBI network “Quasar”. This n...
The K5/VSSP software correlator (Figure 1), located in Tsukuba, Japan, is operated by the Geospatial...
This report presents an overview of the SAI VLBI Analysis Center activities during 2012 and the plan...
Several tests to observe signals transmitted by GLONASS (GLObal NAvigation Satellite System) satelli...
This report of the Technology Coordinator includes the following: 1) continued work to implement the...
Two spacecraft dedicated to Very Long Baseline Interferometry (VLBI) will be launched in 1996 and 19...