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Dimension-Expanded-Based Matching Method With Siamese Convolutional Neural Networks for Gravity-Aided Navigation

Zixuan Ma, Bo Wang, Liu Huang, Fang Cui, Zhihong Deng, Mengyin Fu

2022IEEE Transactions on Industrial Electronics19 citationsDOI

Abstract

Matching algorithm is the key technique of the gravity-aided inertial navigation system. With the development of artificial intelligence, many neural network based matching methods have been extensively studied. The pattern recognition-based matching methods transform the matching problem as pattern recognition, which cannot be used directly on datasets where the neural networks have not been trained. To improve the accuracy of navigation and positioning, it is necessary to extract mutidimensional gravity features from the limited navigation information. In this article, the sequence of the gravity anomaly value is expanded to two-dimensional (2-D) feature map containing time-series features by Gramian angular fields method, which preserves the numerical information of the 1-D sequence and extracts the correlation relationship between each element. In addition, to reduce the influence of gravity measurement instrument error on the position precision of gravity matching algorithm, affine transformation is performed on INS trajectory and a Siamese convolutional neural network model is proposed to compare the measured gravity database with the gravity anomaly value in the prestored gravity background map and get the matching position. The simulation results and practical tests show that the proposed method can obtain a more precise location result compared with the traditional matching algorithm.

Topics & Concepts

Inertial navigation systemConvolutional neural networkComputer scienceArtificial intelligencePattern recognition (psychology)Matching (statistics)Gravity anomalyAffine transformationPosition (finance)Feature extractionArtificial neural networkComputer visionBlossom algorithmAlgorithmMathematicsOrientation (vector space)EngineeringGeometryPetroleum engineeringOil fieldStatisticsFinanceEconomicsInertial Sensor and NavigationGeophysics and Gravity MeasurementsRobotics and Sensor-Based Localization
Dimension-Expanded-Based Matching Method With Siamese Convolutional Neural Networks for Gravity-Aided Navigation | Litcius