A Multipath Detection Method Using C/N0 Observations From Low-Cost Receivers

IF 5.6 2区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Zhen Li;Shengyi Xu;Xiaolong Xu;Qile Zhao;Jing Guo
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引用次数: 0

Abstract

Multipath effects in global navigation satellite system (GNSS) observations significantly reduce positioning accuracy and are challenging to model and mitigate. We propose three statistical tests for multipath detection using the carrier-to-noise power density ratio (C/ $N0$ ). Each test has certain advantages and disadvantages: the first $S1$ based on the C/ $N0$ is sensitive to an abnormal C/ $N0$ but cannot distinguish multipath and non-line-of-sight (NLOS). The second $S2$ based on the differenced C/ $N0$ between frequencies can detect multipath without being affected by NLOS, but at least two frequencies are needed. Additionally, the combination of $S1$ and $S2$ can be used to identify NLOS. The third $S3$ based on the epoch difference of C/ $N0$ is preferred for kinematic mode. The best performance is achieved when all three tests are used in combination. For the static multipath detection experiment in a harsh environment, a function related to the azimuth is established to mitigate the impact of azimuthal dependence of C/ $N0$ on multipath detection for low-cost receivers. The detection rates for a Trimble Alloy receiver with a geodetic antenna and a low-cost u-blox F9P receiver with a microstrip patch antenna were 83.67% and 73.40%, respectively, while their incorrect detection rates were 10.11% and 20.24%, respectively. For single-epoch static real-time kinematic (RTK) positioning with the u-blox F9P, the proportion of horizontal position error within 0.2 and 2 m were improved from 61.5% to 78.8% and 78.3% to 92.8%, respectively, once multipath observations were identified. For the kinematic experiment, 47.05% and 61.79% of the observations were detected as affected by multipath interference, and 70.95% and 85.27% of NLOS observations were detected via the combination of $S1$ and $S2$ for the alloy and u-blox F9P receivers, respectively. However, due to the sensitivity of low-cost devices to multipath effects, the number of available satellites will significantly decrease during kinematic positioning. In such cases, a weighting method should be applied.
利用低成本接收机的 C/N0 观测数据进行多径检测的方法
全球导航卫星系统(GNSS)观测中的多径效应大大降低了定位精度,并且对建模和缓解多径效应具有挑战性。我们提出了利用载波噪声功率密度比(C/ $N0$ )进行多径检测的三种统计测试方法。每种测试都有一定的优缺点:第一种基于 C/ $N0$ 的 $S1$ 对异常 C/ $N0$ 敏感,但不能区分多径和非视距(NLOS)。第二个 $S2$ 基于频率间的 C/ $N0$ 差值,可以检测多径而不受 NLOS 影响,但至少需要两个频率。此外,$S1$ 和 $S2$ 的组合也可用于识别 NLOS。对于运动模式,基于 C/ $N0$ 时差的第三个 $S3$ 是首选。当这三种测试结合使用时,可获得最佳性能。对于恶劣环境下的静态多径检测实验,建立了一个与方位角相关的函数,以减轻 C/ $N0$ 的方位角依赖性对低成本接收机多径检测的影响。带有大地测量天线的 Trimble Alloy 接收机和带有微带贴片天线的低成本 u-blox F9P 接收机的检测率分别为 83.67% 和 73.40%,错误检测率分别为 10.11% 和 20.24%。在使用 u-blox F9P 进行单波段静态实时运动学(RTK)定位时,一旦识别了多径观测,水平位置误差在 0.2 米和 2 米以内的比例分别从 61.5%提高到 78.8%和 78.3%提高到 92.8%。在运动学实验中,通过合金接收机和 u-blox F9P 接收机的 $S1$ 和 $S2$ 组合,分别有 47.05% 和 61.79% 的观测数据被检测出受多径干扰影响,70.95% 和 85.27% 的 NLOS 观测数据被检测出。然而,由于低成本设备对多径效应的敏感性,在运动定位过程中可用卫星的数量会显著减少。在这种情况下,应采用加权法。
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来源期刊
IEEE Transactions on Instrumentation and Measurement
IEEE Transactions on Instrumentation and Measurement 工程技术-工程:电子与电气
CiteScore
9.00
自引率
23.20%
发文量
1294
审稿时长
3.9 months
期刊介绍: Papers are sought that address innovative solutions to the development and use of electrical and electronic instruments and equipment to measure, monitor and/or record physical phenomena for the purpose of advancing measurement science, methods, functionality and applications. The scope of these papers may encompass: (1) theory, methodology, and practice of measurement; (2) design, development and evaluation of instrumentation and measurement systems and components used in generating, acquiring, conditioning and processing signals; (3) analysis, representation, display, and preservation of the information obtained from a set of measurements; and (4) scientific and technical support to establishment and maintenance of technical standards in the field of Instrumentation and Measurement.
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