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GNSS/IMU/LO integration with a new LO error model and lateral constraint for navigation in urban areas

Hanzhi Chen, Rui Sun, Qi Cheng, Yin Tong, Yi Zhou, Washington Y. Ochieng

2024Satellite Navigation19 citationsDOIOpen Access PDF

Abstract

Abstract The quest for reliable vehicle navigation in urban environments has led the integration of Light Detection and Ranging (LiDAR) Odometry (LO) with Global Navigation Satellite Systems (GNSS) and Inertial Measurement Units (IMU). However, the performance of the integrated system is limited by a lack of accurate LO error modeling. In this paper, we propose a weighted GNSS/IMU/LO integration-based navigation system with a novel LO error model. The Squared Exponential Gaussian Progress Regression (SE-GPR) based LO error model is developed by considering the vehicle velocity and number of point cloud features. Based on error prediction for GNSS positioning and LO, a weighting strategy is designed for integration in an Extended Kalman Filter (EKF). Furthermore, error accumulation of the navigation state, especially in GNSS-challenging scenarios, is restrained by the LiDAR-Aided Lateral Constraint (LALC) and Non-Holonomic Constraint (NHC). An experiment was conducted in a deep urban area to test the proposed algorithm. The results show that the proposed algorithm delivers horizontal and three-dimensional (3D) positioning Root Mean Square Errors (RMSEs) of 3.669 m and 5.216 m, respectively. The corresponding accuracy improvements are 35.9% and 50.0% compared to the basic EKF based GNSS/IMU/LO integration.

Topics & Concepts

GNSS applicationsInertial measurement unitConstraint (computer-aided design)Computer scienceGeographyGeodesyEnvironmental scienceArtificial intelligenceGlobal Positioning SystemTelecommunicationsEngineeringMechanical engineeringInertial Sensor and NavigationGNSS positioning and interferenceIndoor and Outdoor Localization Technologies
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