SS-RAIM-Based Integrity Architecture for CDGNSSs Against Satellite Measurement Faults

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Dades bibliogràfiques
Publicat a:	Navigation vol. 72, no. 4 (2025)
Autor principal:	Min, Dongchan
Altres autors:	Kim, Noah Minchan, Nam, Gihun, Lee, Jiyun, Pullen, Sam
Publicat:	The Institute of Navigation
Matèries:	Position measurement Faults Fault detection Integrity Navigational satellites Navigation Global navigation satellite system Position errors Ambiguity Autonomous vehicles Aviation Navigation systems Bias Environmental
Accés en línia:	Citation/Abstract Full Text - PDF
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Descripció
Resum:	Carrier-phase differential global navigation satellite systems (CDGNSSs) present an attractive option for autonomous vehicles that require accurate and safe navigation. The key to high precision in a CDGNSS is resolving integer ambiguities. However, the discrete nature of ambiguities complicates the analysis of position errors in relation to satellite measurement faults, which poses challenges in protection level (PL) calculation. This paper presents an integrity architecture based on solution separation receiver autonomous integrity monitoring. The test statistic for this monitor is defined in the position domain, directly capturing position errors due to faults. This approach facilitates easier and less conservative evaluations of PLs. This paper provides detailed derivations of PLs and monitor thresholds starting from a common definition of integrity and continuity risk. Additionally, this work presents a method for ensuring that PLs reliably bound actual position errors using a measurement overbounding technique. Simulation results show that the monitor detects most faults and that the PLs bound the position errors from undetected faults.
ISSN:	0028-1522 2161-4296
DOI:	10.33012/navi.718
Font:	Advanced Technologies & Aerospace Database