PPP中码相时钟偏差的校正

P. Defraigne, J. Sleewaegen
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引用次数: 4

摘要

精确点定位(PPP)是一种零差单站技术,已被证明对时间和频率传输非常有效,使原子钟的比较精度达到100皮秒,一天的稳定性低于1e-15水平。然而,值得注意的是,对于某些接收器,在基于代码测量的时钟解决方案和基于载波相位测量的时钟解决方案之间观察到频率差异。这些观察结果揭示了接收机测量的编码相位和载波相位之间的一些不一致。这种差异的一种解释是,对于某些接收器来说,在编码和载波相位锁存之间可能存在时间偏移。本文解释了接收机硬件中的码相偏差如何引起码与载波相位时钟解决方案之间的频率差。然后对购买力平价的影响进行量化。最后,研究了在PPP模型中确定这种码相偏差的可能性,并给出了第一批结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Correction for code-phase clock bias in PPP
Precise Point Positioning (PPP) is a zero-difference single-station technique that has proved to be very effective for time and frequency transfer, enabling the comparison of atomic clocks with a precision of a hundred picoseconds and a one day stability below the 1e-15 level. It was however noted that for some receivers, a frequency difference is observed between the clock solution based on the code measurements and the clock solution based on the carrier phase measurements. These observations reveal some inconsistency between the code and carrier phases measured by the receiver. One explanation of this discrepancy is the time offset that can exist for some receivers between the code and carrier phase latching. This paper explains how a code-phase bias in the receiver hardware can induce a frequency difference between the code and the carrier phase clock solutions. The impact on PPP is then quantified. Finally, the possibility to determine this code-phase bias in the PPP modeling is investigated, and the first results are presented.
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