Integration of GPS and vision measurements for navigation in GPS challenged environments

A. Soloviev, D. Venable
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引用次数: 43

Abstract

This paper investigates into the feasibility of a combined use of Global Positioning System (GPS) and vision-based measurements for navigation in challenged GPS environments such as urban canyons and indoors. In these environments, a GPS-only navigation solution fix is generally not feasible. However, limited GPS measurements (for example, for two or three satellites) may still be available. These limited measurements can be exploited to enhance the efficacy of alternative navigation aids such as vision-aided inertial. This paper presents a method for the combination of limited GPS carrier phase measurements with features that are extracted from images of a monocular video camera. An integrated GPS/vision solution estimates position changes and orientation of the camera's body-frame; and, initializes ranges to vision-based features. Simulation results and initial experimental results are presented to validate the proposed integration method and demonstrate its performance.
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GPS和视觉测量在GPS挑战环境下导航的集成
本文研究了全球定位系统(GPS)和基于视觉的测量在城市峡谷和室内等GPS挑战环境下结合使用导航的可行性。在这些环境中,仅使用gps导航解决方案通常是不可行的。然而,有限的GPS测量(例如,两颗或三颗卫星)可能仍然可用。可以利用这些有限的测量来提高替代导航辅助设备的效率,例如视觉辅助惯性导航。本文提出了一种将有限GPS载波相位测量与从单目摄像机图像中提取的特征相结合的方法。集成的GPS/视觉解决方案估计相机机身框架的位置变化和方向;并且,将范围初始化为基于视觉的特征。仿真结果和初步实验结果验证了该方法的有效性。
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