Overview
ABSTRACT
This article details all GNSS satellite positioning systems, especially for their use in high accuracy measurements. The principle of operation, the different hardware and the modes of reception and processing of signals are reviewed, with the corresponding possible accuracies. Its use has revolutionised the field of geodesy and has allowed easy access to national references that are now extremely accurate. Its impact on geomatics and the surveying profession is presented, as well as a typical example of its use in surveying structures.
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Michel KASSER: Former director of the ESGT at ENSG and of the Geomatics program at HEIG-VD, Yverdon, Switzerland
INTRODUCTION
GNSS (Global Navigation Satellite System) has become a fundamental positioning tool since the beginning of the 21st century. Initially, use began with GPS, developed by the American army in the 1970s, and became truly operational (industrialization of receivers, number of satellites in service, etc.) in the early 90s. Other space systems of the same type - Russian (Glonass), Chinese (Beidou/Compass) and European (Galileo, the only purely civilian system) - have also become fully operational.
Today, GNSS is a positioning system used by a wide range of technical users (aerial navigation, car navigation, surveyors' work, civil engineering, etc.), but also and above all by the general public (a GNSS receiver is often included in cell phones: pedestrian guidance, photo location, car navigation, etc.). GNSS accuracy ranges from centimeters to several meters, depending on the technology used.
This article presents the uses of GNSS for high-precision measurements, hitherto limited to purely professional contexts, but which are now becoming accessible to the general public. The history of satellite positioning is first used to understand the current situation and anticipate that of the coming decades. Problems arising from the use of various reference systems are discussed, and measurement procedures, different types of equipment and limitations of use are analyzed. A typical illustration is presented, that of the auscultation of an engineering structure.
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KEYWORDS
panorama | transports | Geomatics | Satellite Positioning | Geodesy | GNSS | use areas
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Mechanical and dimensional measurements
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From historical GPS to GNSS: use for high-precision positioning
Bibliography
- (1) - PIÉPLU (J.-M.) - GPS et Galileo, Systèmes de navigation par satellites. - Éditeur Eyrolles, 154 pages (2006).
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