Real-Time Crater-Based Monocular 3-D Pose Tracking for Planetary Landing and Navigation

Real-Time Crater-Based Monocular 3-D Pose Tracking for Planetary Landing and Navigation

This article proposes a vision-based framework to track the pose of lander in real time during planetary exploration with craters as landmarks. The contour of landmark crater is represented with three-dimensional Fourier series offline. During tracking, for the first instant, the tracking system is...

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Veröffentlicht in:IEEE transactions on aerospace and electronic systems 2023-02, Vol.59 (1), p.311-335
Hauptverfasser: Liu, Chang, Guo, Wulong, Hu, Weiduo, Chen, Rongliang, Liu, Jia
Format: Artikel
Sprache:eng
Schlagworte:
Cameras
Computer vision
Contours
Covariance
crater
Craters
Extended Kalman filter
Fourier series
Image edge detection
landing guidance
navigation
Optimization
Planetary landing
pose tracking
Real time
Real-time systems
Solid modeling
Space exploration
Space vehicles
Three-dimensional displays
Tracking systems
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Beschreibung
Zusammenfassung:This article proposes a vision-based framework to track the pose of lander in real time during planetary exploration with craters as landmarks. The contour of landmark crater is represented with three-dimensional Fourier series offline. During tracking, for the first instant, the tracking system is initialized by crater-based correspondence and optimization. For each subsequent instant, with the initial guess from the extended Kalman filter (EKF), the lander pose is determined by L1-norm minimization of the reprojection errors of the crater contour models in the descent image. The covariance of the determined pose is inferred based on Laplace distribution. With this covariance, the EKF generates the final estimate to pose and gives the initial guess for the pose at the next instant. Sufficient trails verify the efficacy of the proposed method.
ISSN:0018-9251
1557-9603
DOI:10.1109/TAES.2022.3184660