基于视界的行星表面导航方向估计

Xavier Bouyssounouse, A. Nefian, A. Thomas, L. Edwards, M. Deans, T. Fong
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引用次数: 5

摘要

行星漫游者在极端环境中导航,而全球定位系统(GPS)是不可用的,地图被限制在轨道图像提供的相对较低的分辨率,由于弱磁场或不存在磁场,罗盘信息往往缺乏。然而,准确的探测车定位对于实现任务的成功尤为重要,因为它可以达到科学目标,避免仅在轨道地图上可见的负面障碍,并保持与地面的良好通信连接。本文描述了一种精确估计漫游车方位的水平解。机载导航相机提供的图像中检测到的地平线与在现有地形模型上渲染的地平线相匹配。使两个水平曲线之间的成本函数最小的旋转参数(滚转、俯仰偏航)集合对应于漫游车的估计姿态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Horizon based orientation estimation for planetary surface navigation
Planetary rovers navigate in extreme environments for which a Global Positioning System (GPS) is unavailable, maps are restricted to relatively low resolution provided by orbital imagery, and compass information is often lacking due to weak or not existent magnetic fields. However, an accurate rover localization is particularly important to achieve the mission success by reaching the science targets, avoiding negative obstacles visible only in orbital maps, and maintaining good communication connections with ground. This paper describes a horizon solution for precise rover orientation estimation. The detected horizon in imagery provided by the on board navigation cameras is matched with the horizon rendered over the existing terrain model. The set of rotation parameters (roll, pitch yaw) that minimize the cost function between the two horizon curves corresponds to the rover estimated pose.
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