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Robust Inertial-Aided Underwater Localization Based on Imaging Sonar Keyframes

Yang Xu, Ronghao Zheng, Senlin Zhang, Meiqin Liu

2022IEEE Transactions on Instrumentation and Measurement44 citationsDOIOpen Access PDF

Abstract

This article focuses on feature-based underwater localization and navigation for autonomous underwater vehicles (AUVs) using 2-D imaging sonar measurements. The sparsity of underwater acoustic features and the loss of elevation angle in sonar images may introduce wrong feature matches or insufficient features for optimization-based underwater localization (i.e., underconstrained/degeneracy cases). This motivates us to propose a novel inertial-aided sliding window optimization framework to improve the estimation accuracy and the robustness to front-end outliers. Concretely, we first discriminate underconstrained/well-constrained sonar frames and define sonar keyframes (SKFs) based on the Jacobian matrix derived from odometry and sonar measurements. To utilize the past well-constrained SKFs mostly, we design a size-adjustable windowed back-end optimization scheme based on singular values. We also prove that the landmark triangulation failure (navigation problem) caused by sonar motion can be solved in 2-D scenes. Comparative simulation and evaluation on a public dataset show that the proposed method outperforms the existing ones in pose estimation and robustness even without loop closure and also ensures the real-time performance for online applications.

Topics & Concepts

SonarUnderwaterComputer scienceInertial measurement unitInertial navigation systemInertial frame of referenceComputer visionRemotely operated underwater vehicleSonar signal processingRemote sensingAcousticsArtificial intelligenceSignal processingGeologyPhysicsComputer hardwareMobile robotDigital signal processingOceanographyRobotQuantum mechanicsUnderwater Vehicles and Communication SystemsRobotics and Sensor-Based LocalizationIndoor and Outdoor Localization Technologies
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