Various measurement monitoring techniques are investigated to mitigate the effect of global navigation satellite systems (GNSS) code multipath through error correction, stochastic weighting of measurements and detection and exclusion (or de-weighting) of affected measurements. Following a comprehensive review of each approach, the paper focuses on detection/exclusion and detection/de-weighting techniques where several single and dual-frequency monitoring metrics are employed in a combination with time-averaging and the M of N detection strategy. A new Geometry-Free (GF) detection metric is proposed given its capability to be combined with a preceding Code-Minus-Carrier (CMC)-based error correction to reduce the number of excluded or de-weighted measurements and thus preserve the measurement geometry. Three geometry-based algorithms, namely measurement subset testing, consecutive exclusion and iterative change of measurement weights are investigated to address multipath scenarios with multiple simultaneously affected measurements. Experimental results are provided using GPS L1, L2C and L5 data collected in multipath environments for static and kinematic scenarios. For GPS L1, the proposed combined method shows more than 38% improvement over a conventional Carrier-to-Noise-density ratio (C/N0)-based Least-Squares (LS) solution in all but deep urban canyons. Lower performance was observed for L2C and L5 frequencies with a limited number of satellites in view.
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机译:研究了各种测量监视技术,以通过纠错,测量的随机加权以及对受影响的测量进行检测和排除(或去加权)来减轻全球导航卫星系统(GNSS)代码多径的影响。在对每种方法进行全面回顾之后,本文重点介绍了检测/排除和检测/去权重技术,其中结合时间平均和N of M检测策略采用了几种单频和双频监测指标。提出了一种新的无几何(GF)检测度量,因为它具有与先前基于代码减负载波(CMC)的纠错功能相结合的功能,以减少排除或去加权的测量数量,从而保留测量几何。研究了三种基于几何的算法,即测量子集测试,连续排除和测量权重的迭代更改,以解决具有多个同时受影响的测量的多路径方案。使用在静态和运动场景下的多路径环境中收集的GPS L1,L2C和L5数据提供了实验结果。对于GPS L1,建议的组合方法在除深部城市峡谷外的所有峡谷中,均比基于传统的载波噪比(C / N0)的最小二乘(LS)解决方案提高了38%以上。观察到L2C和L5频率的性能较低,并且卫星数量有限。
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