GPS attitude determination for a JPALS testbed: Integer initialization and testing

PLANS 2004. Position Location and Navigation Symposium (IEEE Cat. No.04CH37556) Pub Date : 2004-04-26 DOI:10.1109/PLANS.2004.1309071

D. De Lorenzo, S. Alban, J. Gautier, P. Enge

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引用次数: 21

Abstract

An attitude-based search algorithm was implemented for initial ambiguity resolution and integer determination, and then tested on a three-element equilateral array with baselines of 0.5m. Running the initialization algorithm at every epoch, it was found that the search algorithm gave efficient and reliable integer solutions for a static antenna array, but was sensitive to errors in a dynamic environment in the absence of multi-epoch filtering or solution checking procedures. Incorporating knowledge of allowable array orientation into the search greatly increased execution speed and reduced spurious integer estimates. This paper reviews the fundamentals of multi-antenna GPS-based attitude determination, develops in detail a simple and efficient 3-D search algorithm, discusses tradeoffs between execution speed (search spacing), signal phase noise, and estimate reliability, and presents results from static and in-motion automotive testing. Based on these findings, the utility of integration between GPS and inertial systems for robust attitude determination cannot be overstated.

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JPALS试验台的GPS姿态确定:整数初始化和测试

采用基于姿态的搜索算法进行模糊度初始解算和整数确定，并在基线为0.5m的三元等边阵列上进行测试。在每个历元上运行初始化算法，发现该搜索算法对静态天线阵给出了高效可靠的整数解，但在动态环境下，由于缺乏多历元滤波和解检验程序，对误差很敏感。将允许的数组方向知识结合到搜索中大大提高了执行速度并减少了虚假整数估计。本文回顾了基于多天线gps的姿态确定的基本原理，详细开发了一种简单高效的三维搜索算法，讨论了执行速度(搜索间隔)、信号相位噪声和估计可靠性之间的权衡，并给出了静态和动态汽车测试的结果。基于这些发现，GPS和惯性系统之间的整合对于鲁棒姿态确定的效用不能被夸大。

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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PLANS 2004. Position Location and Navigation Symposium (IEEE Cat. No.04CH37556)

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