An Area Computation Based Method for RAIM Holes Assessment

Journal of Global Positioning Systems Pub Date : 2006-12-01 DOI:10.5081/JGPS.5.1.11

S. Feng, W. Ochieng, R. Mautz

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引用次数: 2

Abstract

Receiver Autonomous Integrity Monitoring (RAIM) is a method implemented within the receiver to protect users against satellite navigation system failures. Research has shown that traditional methods for the determination of RAIM holes (i.e. places where less than five satellites are visible and available) based on spatial and temporal intervals (grids) compromise accuracy dueto the constraint of computation load. Research by the authors of this paper has addressed this and developed a new algorithm to determine RAIM holes using bounded regions instead of approximation based on grid points. This paper uses the new algorithm and proposes an area based method for the computation a RAIM satellite availability statistic based on the ratio of the total area of RAIM holes and the coverage area (regional or global area). Assessment over time is based on the interpolation using a model generated from snapshot spatial statistics at a relatively long temporal interval. Test results show that the area-based method for the calculation of the RAIM satellite availability statistic is significantly more accurate with less computational load than the traditional grid points based approach.

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基于面积计算的降雨孔评价方法

接收机自主完整性监测(RAIM)是在接收机内部实现的一种保护用户免受卫星导航系统故障影响的方法。研究表明，传统的基于时空间隔(网格)确定RAIM空穴(即可见且可用卫星少于5颗的地点)的方法由于计算量的限制而降低了精度。本文作者的研究解决了这个问题，并开发了一种使用有界区域而不是基于网格点的近似来确定RAIM孔的新算法。本文在此基础上，提出了一种基于区域或全球覆盖面积与RAIM空穴总面积之比的基于区域的RAIM卫星可用性统计量计算方法。随着时间推移的评估是基于在相对较长的时间间隔内使用快照空间统计数据生成的模型进行插值。试验结果表明，基于区域的RAIM卫星可用性统计量的计算精度明显高于传统的基于网格点的方法，且计算量更少。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Global Positioning Systems

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