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Adaptive Gravity-Aided Inertial Navigation Based on Characteristic Analysis of Marine Gravity Anomaly From Satellite Altimetry

Ning Mao, An Li, Jiangning Xu, Fangneng Li, Fangjun Qin, Hongyang He, Jingshu Li, Bing Zhu

2024IEEE Transactions on Geoscience and Remote Sensing12 citationsDOI

Abstract

With the improvement of resolution and precision of marine gravity anomaly data from satellite altimetry, the gravity matching navigation of underwater vehicles has been supported by background field data. To improve the accuracy, a multi-index model for analyzing the gravity background field characteristics is constructed, and an adaptive matching navigation algorithm is designed. First, the common single-index feature analysis methods are introduced, and their advantages and disadvantages are analyzed. The multi-index average statistical parameter (MASP) model applicable to the characterization of marine gravity anomaly background field is designed, and the reliability is verified by two satellite altimetric gravity anomaly datasets from the northwest Indian Ocean and the western Pacific Ocean. Then, an adaptive matching navigation algorithm is proposed by introducing the MASP model in the filtering process, which can adjust the filter structure in real time. Finally, the performance of the method is verified by about 30 h of field test. The matching results show that the proposed method can adjust the filter structure adaptively and has better comprehensive performance.

Topics & Concepts

Gravity anomalyGeodesyInertial navigation systemAltimeterSatellite altimetryRemote sensingSatelliteGeologyAnomaly (physics)Inertial frame of referencePhysicsAstronomyPaleontologyQuantum mechanicsOil fieldCondensed matter physicsGeophysics and Gravity MeasurementsInertial Sensor and NavigationGNSS positioning and interference
Adaptive Gravity-Aided Inertial Navigation Based on Characteristic Analysis of Marine Gravity Anomaly From Satellite Altimetry | Litcius