INITIAL ALIGNMENT OF FIBER-OPTIC INERTIAL NAVIGATION SYSTEM WITH LARGE MISALIGNMENT ANGLES BASED ON GENERALIZED PROPORTIONAL-INTEGRAL-DERIVATIVE FILTER

INITIAL ALIGNMENT OF FIBER-OPTIC INERTIAL NAVIGATION SYSTEM WITH LARGE MISALIGNMENT ANGLES BASED ON GENERALIZED PROPORTIONAL-INTEGRAL-DERIVATIVE FILTER

Initial alignment in the presence of large misalignment angles is a critical issue in strapdown inertial navigation systems. The large initial misalignment angle adversely affects the accuracy and rapidness of the alignment process. In this paper a novel robust alignment approach is proposed based o...

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Veröffentlicht in:International journal on smart sensing and intelligent systems 2017-01, Vol.10 (3), p.1-17
Hauptverfasser: Ali Rahgoshay, Mohammad, Karimaghaie, Paknoosh, Shabaninia, Fereidoon
Format: Artikel
Sprache:eng
Schlagworte:
Alignment
Fiber optics
Generalized Proportional-Integral-Derivative Filter
Index terms: Standard Kalman Filter
Inertial navigation
Initial Alignment
Kalman filters
Large Misalignment Angles
Misalignment
Navigation systems
Proportional integral derivative
Strapdown inertial navigation
Strapdown Inertial Navigation System
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Zusammenfassung:Initial alignment in the presence of large misalignment angles is a critical issue in strapdown inertial navigation systems. The large initial misalignment angle adversely affects the accuracy and rapidness of the alignment process. In this paper a novel robust alignment approach is proposed based on a generalized proportional-integral-derivative filter. The proposed alignment approach has some significant advantages compared to the standard Kalman filter based alignment method. This method increases the accuracy and the convergence speed of the alignment process in the large misalignment angles problem. Experimental results also, verify the prominent performance of the presented approach in comparison to conventional standard Kalman filter based alignment method.
ISSN:1178-5608
1178-5608
DOI:10.21307/ijssis-2017-226