Enhancement of INS/GNSS integration capabilities for aviation-related Applications

Enhancement of INS/GNSS integration capabilities for aviation-related Applications

Two methods for construction and use of integrated inertial and satellite systems are considered, taking into account the specific features of aviation-related applications, namely, alignment correction, and autocalibration. Alignment correction is performed during aircraft maneuvering on the airfie...

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Veröffentlicht in:Gyroscopy and navigation (Online) 2017-10, Vol.8 (4), p.248-258
Hauptverfasser: Zorina, O. A., Izmailov, E. A., Kukhtevich, S. E., Portnov, B. I., Fomichev, A. V., Vavilova, N. B., Golovan, A. A., Papusha, I. A., Parusnikov, N. A.
Format: Artikel
Sprache:eng
Schlagworte:
Aerospace Technology and Astronautics
Aircraft
Aircraft performance
Alignment
Aviation
Construction methods
Data processing
Engineering
Flight tests
Geophysics/Geodesy
Global navigation satellite system
Inertial navigation
Inertial sensing devices
Information processing
Lasers
Mathematical models
Military applications
Navigation
Navigation systems
Satellites
Ship handling
Strapdown inertial navigation
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Beschreibung
Zusammenfassung:Two methods for construction and use of integrated inertial and satellite systems are considered, taking into account the specific features of aviation-related applications, namely, alignment correction, and autocalibration. Alignment correction is performed during aircraft maneuvering on the airfield. Autocalibration of strapdown inertial navigation systems (SINS) is based on using the estimations of instrumental errors of inertial sensors, which had been obtained by the complex information processing (CIP) algorithm in a number of previous flights of the aircraft. The results of numerous flight tests of laser SINS designed by PAO MIEA for civil and military applications are provided as an evidence of high efficiency of the information integration methods proposed herein.
ISSN:2075-1087
2075-1109
DOI:10.1134/S2075108717040101