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Galileo Receivers: Difference between revisions
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==Galileo receivers== | ==Galileo receivers== | ||
The Galileo global navigation satellite system will employ many new methods and technologies to offer superior performance and reliability. Development of the advanced receivers required to make use of the system is continuing. | The Galileo global navigation satellite system will employ many new methods and technologies to offer superior performance and reliability. Development of the advanced receivers required to make use of the system is continuing. | ||
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receivers for the signals transmitted by the first, experimental satellites | receivers for the signals transmitted by the first, experimental satellites | ||
receivers for the Galileo receiver chain | receivers for the Galileo receiver chain | ||
==Test user segment== | ==Test user segment== | ||
The test user segment is being used for system validation and signal experimentation. Two parallel developments have been performed, with the aim of securing equipment availability and achieving the highest confidence in the results. The test user segment consists of: | The test user segment is being used for system validation and signal experimentation. Two parallel developments have been performed, with the aim of securing equipment availability and achieving the highest confidence in the results. The test user segment consists of: | ||
a test user receiver for the open, commercial and safety-of-life services | a test user receiver for the open, commercial and safety-of-life services | ||
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The receivers are based on a highly flexible software-defined concept implementing 14 different receiver configurations. They are able to emulate different receiver classes and provide a variety of internal measurements when combined with an analysis sub-system running on an attached laptop computer. | The receivers are based on a highly flexible software-defined concept implementing 14 different receiver configurations. They are able to emulate different receiver classes and provide a variety of internal measurements when combined with an analysis sub-system running on an attached laptop computer. | ||
==Experimental satellite receivers== | |||
==Experimental satellite receivers== | |||
These receivers are being used to receive the signals that are transmitted by the first, experimental satellite. They serve both as reference receivers for Galileo sensor stations and as experimental receivers for field tests. | These receivers are being used to receive the signals that are transmitted by the first, experimental satellite. They serve both as reference receivers for Galileo sensor stations and as experimental receivers for field tests. | ||
==Galileo receiver chain== | |||
==Galileo receiver chain== | |||
Galileo sensor stations will be equipped with high-performance, ultra-reliable receivers. The stations provide measurement data to the Galileo system central processing facilities for establishing system integrity and performing satellite orbit determination and time synchronisation. | Galileo sensor stations will be equipped with high-performance, ultra-reliable receivers. The stations provide measurement data to the Galileo system central processing facilities for establishing system integrity and performing satellite orbit determination and time synchronisation. | ||
==First achievements== | ==First achievements== | ||
The objectives of the initial part of the design phase for the test user segment have been fully achieved. A prototype receiver has been constructed, which is capable of receiving all Galileo signal components on all carriers defined in the current specification. The feasibility of acquiring and tracking the new Galileo signals has been proven. | The objectives of the initial part of the design phase for the test user segment have been fully achieved. A prototype receiver has been constructed, which is capable of receiving all Galileo signal components on all carriers defined in the current specification. The feasibility of acquiring and tracking the new Galileo signals has been proven. | ||
Prototype receivers have also been used for verification of the payloads on the experimental satellites, GIOVE-A and GIOVE-B. They are also being used for validation of the satellite constellation simulator, which emulates the signals as generated by the satellites and modified by environmental effects (due to atmospheric effects, multi-path reception and interference), resulting in a signal that a user receiver would see on the ground. | Prototype receivers have also been used for verification of the payloads on the experimental satellites, GIOVE-A and GIOVE-B. They are also being used for validation of the satellite constellation simulator, which emulates the signals as generated by the satellites and modified by environmental effects (due to atmospheric effects, multi-path reception and interference), resulting in a signal that a user receiver would see on the ground. | ||
The Interface Control Document (ICD) for Galileo is available on the European Commission website, so receiver manufacturers can already work to prepare the acquisition of real Galileo data. | The Interface Control Document (ICD) for Galileo is available on the European Commission website, so receiver manufacturers can already work to prepare the acquisition of real Galileo data. |
Revision as of 09:08, 11 May 2011
The next section is directly copied from GALILEO ESA web page http://www.esa.int/esaNA/SEMY800DU8E_galileo_0.html
Galileo receivers
The Galileo global navigation satellite system will employ many new methods and technologies to offer superior performance and reliability. Development of the advanced receivers required to make use of the system is continuing.
Three receiver development activities have been initiated within the Galileo programme, addressing the different needs of the system development process and covering the range of signals and services that will be offered.
Activities in receiver development are in the following areas: test user segment receivers for the signals transmitted by the first, experimental satellites receivers for the Galileo receiver chain
Test user segment
The test user segment is being used for system validation and signal experimentation. Two parallel developments have been performed, with the aim of securing equipment availability and achieving the highest confidence in the results. The test user segment consists of: a test user receiver for the open, commercial and safety-of-life services a test user receiver for the public, regulated service search and rescue test beacon equipment test support tools, such as a simulator for the satellite constellation The receivers are based on a highly flexible software-defined concept implementing 14 different receiver configurations. They are able to emulate different receiver classes and provide a variety of internal measurements when combined with an analysis sub-system running on an attached laptop computer.
Experimental satellite receivers
These receivers are being used to receive the signals that are transmitted by the first, experimental satellite. They serve both as reference receivers for Galileo sensor stations and as experimental receivers for field tests.
Galileo receiver chain
Galileo sensor stations will be equipped with high-performance, ultra-reliable receivers. The stations provide measurement data to the Galileo system central processing facilities for establishing system integrity and performing satellite orbit determination and time synchronisation.
First achievements
The objectives of the initial part of the design phase for the test user segment have been fully achieved. A prototype receiver has been constructed, which is capable of receiving all Galileo signal components on all carriers defined in the current specification. The feasibility of acquiring and tracking the new Galileo signals has been proven.
Prototype receivers have also been used for verification of the payloads on the experimental satellites, GIOVE-A and GIOVE-B. They are also being used for validation of the satellite constellation simulator, which emulates the signals as generated by the satellites and modified by environmental effects (due to atmospheric effects, multi-path reception and interference), resulting in a signal that a user receiver would see on the ground.
The Interface Control Document (ICD) for Galileo is available on the European Commission website, so receiver manufacturers can already work to prepare the acquisition of real Galileo data.