基于视觉的非合作目标自主空间交会导航

2020 11th International Conference on Information, Intelligence, Systems and Applications (IISA Pub Date : 2020-07-15 DOI:10.1109/IISA50023.2020.9284383

A. Comellini, Emmanuel Zenou, C. Espinosa, V. Dubanchet

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引用次数: 1

摘要

研究了非合作目标空间交会的视觉导航问题。在简要描述了场景及其特点之后，回顾了基于单眼边缘的姿态估计跟踪的理论，并正式开发和实现了一种创新的跟踪算法。该算法与动态卡尔曼滤波器相结合，传播空间交会的动态特性。导航滤波器增加了目标位置和姿态估计的鲁棒性，并允许仅使用姿态测量来估计目标的平移速度和旋转速率。此外，该滤波器实现了计算效率高的延迟管理技术，允许合并视觉导航中典型的延迟和不频繁的测量。在高保真合成图像的不同场景下，对算法的性能进行了测试。

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Vision-based navigation for autonomous space rendezvous with non-cooperative targets

This study addresses the issue of vision-based navigation for space rendezvous with non-cooperative targets. After a brief description of the scenario and its peculiarities, the theory underlying monocular edges-based tracking for pose estimation is recalled and an innovative tracking algorithm is formally developed and implemented. This algorithm is coupled with a dynamic Kalman Filter propagating the dynamics which underlies a space rendezvous. The navigation filter increases the robustness of target position and attitude estimation, and allows the estimation of target translational velocity and rotation rate using only pose measurements. Moreover, the filter implements a computationally efficient delay management technique that allows merging the delayed and infrequent measurements typical of vision-based navigation. The performance of the algorithm is tested in different scenarios with high fidelity synthetic images.

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2020 11th International Conference on Information, Intelligence, Systems and Applications (IISA

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