通过配准到行星地形的位置估计

2012 IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems (MFI) Pub Date : 2012-11-12 DOI:10.1109/MFI.2012.6343004

Aashish Sheshadri, K. Peterson, H. Jones, W. Whittaker

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引用次数: 8

摘要

在行星环境中，仅使用激光雷达和仅使用相机进行全球定位的方法严重依赖于高程数据的可用性。现有dem的低分辨率限制了这些方法的准确性。新的高分辨率行星图像的可用性激发了本文提出的探测车定位方法。该方法将地形外观与正射影相关联。漫游者利用相机和激光雷达的全景数据生成一个彩色的当地地形3D模型。该模型正投影到地平面上，以创建模板图像。然后将模板与可用的卫星图像相关联，以确定漫游车的位置。不需要事先的高程数据。仿真实验表明，精度为2m。该方法对卫星和漫游车图像之间30°的光照角度差异具有鲁棒性。

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Position estimation by registration to planetary terrain

LIDAR-only and camera-only approaches to global localization in planetary environments have relied heavily on availability of elevation data. The low-resolution nature of available DEMs limits the accuracy of these methods. Availability of new high-resolution planetary imagery motivates the rover localization method presented here. The method correlates terrain appearance with orthographic imagery. A rover generates a colorized 3D model of the local terrain using a panorama of camera and LIDAR data. This model is orthographically projected onto the ground plane to create a template image. The template is then correlated with available satellite imagery to determine rover location. No prior elevation data is necessary. Experiments in simulation demonstrate 2m accuracy. This method is robust to 30° differences in lighting angle between satellite and rover imagery.

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来源期刊

2012 IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems (MFI)

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