Instantaneous Doppler-aided RTK positioning with single frequency receivers

M. Bahrami, M. Ziebart
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引用次数: 30

Abstract

Instantaneous Real-Time Kinematic (RTK) is one of the most precise GNSS positioning and navigation technologies, with which users can obtain centimeter-level relative positioning accuracy in real-time. This technique relies fundamentally upon the inversion of both carrier-phase and code pseudoranges and successful instantaneous ambiguity resolution. However, in this approach the probability of fixing ambiguities to correct integer values is dominated by the relatively imprecise code pseudorange measurements especially in urban areas and difficult environments where the level of noise and multipath on code pseudoranges are high. This problem may be overcome partially by carrier-smoothing of the code pseudoranges using e.g. the Hatch filter. However, in unfavorable environments frequent carrier-phase outages, cycle slips and anomalies occur due to blockages and foliage, etc. and hence the effectiveness of the conventional carrier-smoothing of the code pseudoranges is limited. On the other hand, a receiver can generate continuous Doppler frequency shift measurements with centimeter-level precision even in severe urban canyons as long as signals are present. The objective of this paper is to show the advantage of adding Doppler frequency shift information to instantaneous RTK positioning and navigation in particular for single frequency users. The aim is to enhance the probability of identifying the correct set of integer ambiguities and hence increase the success rate of the integer ambiguity resolution process in instantaneous RTK. In this paper, a simple combination procedure of the noisy code-based pseudorange measurements and the centimeter-level precision receiver-generated Doppler measurements is used to smooth the code pseudoranges. Doppler-smoothed code pseudoranges are then used to help resolve integer ambiguities in the conventional LAMBDA ambiguity resolution method. Single-epoch single-frequency static trials over varying baselines from few meters up to 40 kilometers have shown improvement in fixing the correct set of integer ambiguity vectors when Doppler-smoothed pseudoranges are used compared to the conventional ambiguity resolution without Doppler-aiding. Relative kinematic positioning with single frequency mass market receivers in urban areas using Virtual Reference Stations (VRS) has also shown improvement.
瞬时多普勒辅助RTK定位与单频接收机
瞬时实时运动学(instant Real-Time Kinematic, RTK)是GNSS定位导航技术中精度最高的技术之一,用户可以实时获得厘米级的相对定位精度。该技术从根本上依赖于载波相位和代码伪距的反转以及成功的瞬时歧义解决。然而,在这种方法中,将歧义固定到正确整数值的概率主要是由相对不精确的代码伪距测量决定的,特别是在城市地区和代码伪距上的噪声和多路径水平很高的困难环境中。这个问题可以通过使用哈奇滤波器等对伪码进行载波平滑处理来部分克服。然而,在不利的环境中,由于阻塞和叶状等原因,频繁的载波相位中断、周期滑移和异常会发生,因此传统的载波平滑码伪线的有效性受到限制。另一方面,只要信号存在,即使在恶劣的城市峡谷中,接收器也可以产生厘米级精度的连续多普勒频移测量。本文的目的是展示在瞬时RTK定位和导航中加入多普勒频移信息的优势,特别是对于单频用户。目的是提高识别正确整数模糊集的概率,从而提高瞬时RTK中整数模糊解决过程的成功率。本文采用基于噪声码的伪距测量和厘米级精度接收机产生的多普勒测量相结合的简单方法来平滑码伪距。然后使用多普勒平滑代码伪距离来帮助解决传统LAMBDA歧义解决方法中的整数歧义。在从几米到40公里的不同基线上进行的单历元单频静态试验表明,与没有多普勒辅助的传统模糊分辨率相比,使用多普勒平滑伪距时,在固定正确的整数模糊向量集方面有所改善。城市地区使用虚拟参考站(VRS)的单频大众市场接收机的相对运动学定位也得到了改善。
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