Multi-monitor station 'on the fly' ambiguity resolution: the impacts of satellite geometry and monitor station geometry

IEEE PLANS 92 Position Location and Navigation Symposium Record Pub Date : 1992-03-23 DOI:10.1109/PLANS.1992.185876

H. Abidin

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引用次数: 2

Abstract

It is noted that resolving the carrier phase cycle ambiguity on the fly is the key to precise (centimeter-level accuracy) real-time differential GPS (Global Positioning System) kinematic positioning. The resolution requires on the fly isolation of the correct ambiguity from the geometric range and the errors and biases in the observations, and therefore it is not an easy task to accomplish. The performance of the ambiguity resolution, however, can be improved by using more than one monitor station along with a reliable on the fly ambiguity resolution technique. The advantages of multimonitor station on the fly ambiguity resolution are described. The impacts of satellite geometry and monitor station geometry on the ambiguity resolution are analyzed, and some results are presented to highlight the important issues. The effects of the geometry of satellites and monitor stations on the on the fly ambiguity resolution were investigated by considering only the observation noises, assuming that all the biases in the observations have been eliminated by applying the corrections derived by the primary monitor stations.<>

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多监测站“动态”歧义解决:卫星几何形状和监测站几何形状的影响

指出在飞行中解决载波相位周期模糊是精确(厘米级精度)实时差分GPS(全球定位系统)运动学定位的关键。该解决方案要求在飞行中隔离正确的模糊性，从几何范围和误差和偏差的观测，因此它不是一个容易完成的任务。然而，通过使用多个监测站以及可靠的动态模糊分辨技术，可以提高模糊分辨的性能。介绍了多监测站动态模糊度分辨力的优点。分析了卫星几何形状和监测站几何形状对模糊度分辨率的影响，并给出了一些结果，突出了其中的重要问题。在假定所有观测偏差都通过应用主监测站的修正消除的情况下，仅考虑观测噪声，研究了卫星和监测站的几何形状对动态模糊度分辨率的影响。

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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IEEE PLANS 92 Position Location and Navigation Symposium Record

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