The GSTB-V1 Experimental Orbitography and Synchronisation Processing Facility (E-OSPF) is the element responsible for the generation of the Navigation and Signal In Space Accuracy (SISA) products within the GSTB-V1. It implements highly sophisticated prototype algorithms for the Galileo Orbit Determination and Time Synchronisation (OD&TS ...

2005年8月25日 · The GSTB-V2/B PHM will be the most accurate atomic clock in orbit and will, with its breakthrough performance, open the door for a wide range of high precision navigation applications as targeted by the Galileo System. The higher timekeeping accuracy will enable better performance than current global navigation satellite systems.

2008年4月27日 · The GIOVE-B spacecraft (formerly referred to as GSTB-V2/B), designed and developed by ESNI (the European industrial team was led by Astrium GmbH, with Astrium Ltd., Thales Alenia Space, France, and Thales Alenia Space Italy performing integration and testing in …

2005年12月28日 · The payload ground segment of GIOVE (GSTB-V2) consists of a worldwide network of sensor stations, referred to as GESS (Galileo Experimental Sensor Stations), collecting high quality Galileo data at 1 Hz, and a GPC (GIOVE Processing Center) at ESA/ESTEC in Noordwijk, The Netherlands.

2005年10月7日 · The second satellite, GSTB-V2/B, built by the European consortium Galileo Industries, will demonstrate the Passive Hydrogen Maser (PHM), the most accurate atomic ever launched to orbit. Developed under ESA contract, the PHM will play a key role for a wide range of high precision navigation applications.

2005年8月3日 · One of the two Galileo satellites currently under development, GSTB-V2/A, has arrived at ESA’s European Space Research and Technology Centre to undergo testing. Two satellites are being...

2023年1月14日 · Using GSTB-v2A, to be launched into a 23,616 km circular 56° inclination medium Earth orbit, ESA will be able to obtain an early experimental signal for the demonstration of Galileo technology and have an opportunity to test key European technologies in the harsh space environment that the operational Galileo satellites will encounter.

On 12 th January 2006, Giove-A met its prime objective of demonstrating a Galileo navigation signal in space. Giove-A already has been a remarkable success, and it will enable ESA to achieve their 4 major objectives with this satellite at relatively low …

In 2004 the Galileo System Test Bed Version 1 (GSTB-V1) project validated the on-ground algorithms for Orbit Determination and Time Synchronization (OD&TS). GIOVE satellites transmitted multifrequency ranging signals equivalent to the signals of future Galileo: L1BC, L1A, E6BC, E6A, E5a, E5b.

2005年10月28日 · The first two satellites in the Galileo constellation, two experimental trail-blazers dubbed GSTB-V2/A and GSTB-V2/B, are at an advanced stage of preparation, ready to make the first step (*)...