Wrong Fix Detection for RTK Positioning Based on Relative Position Between Multiple Antennas

Pub Date : 2024-04-20 DOI:10.20965/jrm.2024.p0472

Tomohito Takubo, Masaya Sato, A. Ueno

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Abstract

We propose a methodology that uses the relative positional information of multiple antennas to estimate the Wrong Fix, which refers to an erroneous determination of the carrier-phase ambiguity utilized in GNSS satellites. The proposed approach is based on the fundamental notion that the mutual positional relationship of multiple antennas mounted on a mobile robot remains constant, and it uses machine-learning techniques based on the relative position information among the antennas to identify instances of Wrong Fixes. The relative distance between the antennas is derived from the real-time kinematic (RTK) position information of each antenna. The confidence level of the RTK positioning results was calculated using logistic regression, considering the measurement error with respect to the true value. To determine the Wrong Fixes, a labeled dataset was constructed, indicating that data were categorized as wrong fixes when the error from the true value exceeded 0.1 m. This dataset served as the training database for the logistic regression model. Experimental results demonstrate that the proposed methodology effectively reduced the root mean squared error between the measured location, classified as fixed by a trained discriminator, and the true value.

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基于多天线间相对位置的 RTK 定位错误修复检测

我们提出了一种利用多个天线的相对位置信息来估算错误修复的方法，错误修复指的是对全球导航卫星系统卫星所使用的载波相位模糊性的错误判断。所提出的方法基于一个基本概念，即安装在移动机器人上的多个天线之间的相互位置关系保持不变，该方法利用基于天线之间相对位置信息的机器学习技术来识别错误定位实例。天线之间的相对距离来自每个天线的实时运动学（RTK）位置信息。RTK 定位结果的置信度采用逻辑回归法计算，并考虑了相对于真实值的测量误差。为确定 "错误定位"，构建了一个标签数据集，表明当与真实值的误差超过 0.1 米时，数据将被归类为错误定位。实验结果表明，建议的方法有效地减少了被训练有素的判别器归类为固定的测量位置与真实值之间的均方根误差。

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