PUBLICAÇÕES

VLBI-Based Assessment Of The Consistency Of The Conventional EOP Series And The Reference Frames (Terrestrial And Celestial) The Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG) envisages stringent goals for the International Terrestrial Reference Frame (ITRF) realization in terms of accuracy (1 mm) and precision (0.1

RAEGE – An Atlantic Network of Space Geodetic Stations The RAEGE project (Portugues/Spanish acronym for Atlantic Network of Geodynamic and Space Stations) is a cooperation project established between the Government of Spain and the Regional Government of the Azores that intends the construction and operation of 4 fundamental space geodetic

Santa Maria station: a GGOS station in Azores and the RAEGE Network General description of RAEGE network, the stations and its activities taking a closer look to the RAEGE Station of Santa Maria, an island in the North-Atlantic Ocean.  João S. Ferreira[1] Type Presentation Event GGOS Affiliate Japan Annual Meeting 2023

RAEGE Station of Santa Maria 2021–2022 Biennial Report The RAEGE Station of Santa Maria, located in the Azores archipelago (Portugal), is one of the four stations of the RAEGE Network. As an highlight for this period one shall mention the installation of the new VGOS broadband receiver, the determination of

The Yebes Observatory and the future VLBI correlator for the RAEGE network This paper describes the geodetic VLBI activities carried out at the Yebes Observatory and gives an update about the status of the RAEGE project. The design of a VLBI correlator for the RAEGE network has just started based

Description of RAEGE Yebes VGOS receiver upgrades This contribution describes the upgrades to be implemented in the RAEGE Yebes VGOS receiver.Meanwhile, the Yebes radio telescope is operating with the VGOS receiver designed for the RAEGE Santa Maria station. The goal of these upgrades is to improve the overall receiver performance

Geodetic Analyses at the National Geographic Institute of Spain The National Geographic Institute of Spain (IGN Spain) develops, operates, and exploits the Spanish national geodetic networks and their associated infrastructure. This includes the permanent networks of reference GNSS (Global Navigation Satellite System) receivers, VLBI (Very Long Baseline Interferometry) telescopes, and

RAEGE: the Spanish-Portuguese Infrastructure of Geodetic Stations This contribution will show the current status of the joint Spanish-Portuguese infrastructure for Space Geodesy called RAEGE, which stands for Red Atlántica de Estaciones Geodinámicas y Espaciales. This infrastructure will consist of four space geodesy stations, two in Spain (Yebes and Gran Canaria)

VLBI-based assessment of the consistency of the conventional EOP series and the terrestrial reference frames Abstract The Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG) envisages stringent accuracy goals for the International Terrestrial Reference Frame (ITRF) realization in terms of position (1 mm) and velocity (0.1

PUBLICAÇÕES

VLBI-Based Assessment Of The Consistency Of The Conventional EOP Series And The Reference Frames (Terrestrial And Celestial) The Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG) envisages stringent goals for the International Terrestrial Reference Frame (ITRF) realization in terms of accuracy (1 mm) and precision (0.1

RAEGE – An Atlantic Network of Space Geodetic Stations The RAEGE project (Portugues/Spanish acronym for Atlantic Network of Geodynamic and Space Stations) is a cooperation project established between the Government of Spain and the Regional Government of the Azores that intends the construction and operation of 4 fundamental space geodetic

Santa Maria station: a GGOS station in Azores and the RAEGE Network General description of RAEGE network, the stations and its activities taking a closer look to the RAEGE Station of Santa Maria, an island in the North-Atlantic Ocean.  João S. Ferreira[1] Type Presentation Event GGOS Affiliate Japan Annual Meeting 2023

RAEGE Station of Santa Maria 2021–2022 Biennial Report The RAEGE Station of Santa Maria, located in the Azores archipelago (Portugal), is one of the four stations of the RAEGE Network. As an highlight for this period one shall mention the installation of the new VGOS broadband receiver, the determination of

The Yebes Observatory and the future VLBI correlator for the RAEGE network This paper describes the geodetic VLBI activities carried out at the Yebes Observatory and gives an update about the status of the RAEGE project. The design of a VLBI correlator for the RAEGE network has just started based

Description of RAEGE Yebes VGOS receiver upgrades This contribution describes the upgrades to be implemented in the RAEGE Yebes VGOS receiver.Meanwhile, the Yebes radio telescope is operating with the VGOS receiver designed for the RAEGE Santa Maria station. The goal of these upgrades is to improve the overall receiver performance

Geodetic Analyses at the National Geographic Institute of Spain The National Geographic Institute of Spain (IGN Spain) develops, operates, and exploits the Spanish national geodetic networks and their associated infrastructure. This includes the permanent networks of reference GNSS (Global Navigation Satellite System) receivers, VLBI (Very Long Baseline Interferometry) telescopes, and

RAEGE: the Spanish-Portuguese Infrastructure of Geodetic Stations This contribution will show the current status of the joint Spanish-Portuguese infrastructure for Space Geodesy called RAEGE, which stands for Red Atlántica de Estaciones Geodinámicas y Espaciales. This infrastructure will consist of four space geodesy stations, two in Spain (Yebes and Gran Canaria)

VLBI-based assessment of the consistency of the conventional EOP series and the terrestrial reference frames Abstract The Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG) envisages stringent accuracy goals for the International Terrestrial Reference Frame (ITRF) realization in terms of position (1 mm) and velocity (0.1