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Reconciliation Problem in Polar Integrated Navigation Considering Coordinate Frame Transformation

Jinlong Sun, Shuhao Ma, Juan Wang, Jie Yang, Miao Liu

2020IEEE Transactions on Vehicular Technology11 citationsDOI

Abstract

A transversal coordinate frame based on a reference ellipsoid is proposed to solve problems associated with strapdown inertial navigation systems (SINSs) in polar regions. However, a commercial-grade SINS can still suffer from cumulative errors even if the transversal coordinate frame is used. To solve this problem, complementary sensors can be used to constitute an integrated navigation system. Because SINS navigational quantities are transformed to the transversal coordinate frame in polar regions, we analyze the performance of a global positioning system and a celestial navigation system in this paper when conducting the coordinate transformation. The derivation and evaluation results show how we reconcile the benefits in SINSs and the negative effects in attitude sensors when adopting the transversal coordinate frame.

Topics & Concepts

Coordinate systemInertial navigation systemReference frameTransversal (combinatorics)Polar coordinate systemTransformation (genetics)Frame (networking)Computer scienceEllipsoidEllipsoidal coordinatesInertial frame of referenceNavigation systemGeographic coordinate conversionFrame of referencePolarControl theory (sociology)Computer visionMathematicsArtificial intelligenceGeodesyPhysicsGeometryTelecommunicationsGeographyMathematical analysisClassical mechanicsControl (management)BiochemistryAstronomyChemistryGeneInertial Sensor and NavigationRobotics and Sensor-Based LocalizationUnderwater Vehicles and Communication Systems
Reconciliation Problem in Polar Integrated Navigation Considering Coordinate Frame Transformation | Litcius