复杂环境GNSS/INS组合定位异常探测自适应方法

Adaptive Method for Outlier Detection of GNSS/INS Positioning in Complex Environments

  • 摘要: 复杂环境下全球导航卫星系统(global navigation satellite system, GNSS) 信号易受干扰,导致 GNSS/惯性导航系统(inertial navigation system, INS)组合导航定位异常,准确探测定位异常是组合导航完好性的重要指标。针对常用的固定阈值探测模式存在误(漏)报率高的问题,构建了基于异常特性和三阈值的模糊逻辑隶属函数,归一化后进行指数加权平滑,提出了新的检验量和自适应异常探测控制准则。车载GNSS/INS 组合动态实验结果表明:与传统的探测方法相比,本文方法异常探测的误报率降低了 93%以上,提高了对交迭区域检验量的判定能力,可有效降低误报率;检测时间窗自适应调节、响应速度快、探测成功率保持在 98%以上,大幅度提升了异常探测的性能,增强了 GNSS/INS 组合导航定位的可靠性。

     

    Abstract: Objectives: In complex environments, global navigation satellite system (GNSS) signals are susceptible to interference, leading to the presence of outliers in positioning results. Enhancing the performance of GNSS/inertial navigation system (INS) integrated navigation effectively and accurately detecting outliers in positioning results are crucial indicators of system integrity. Methods: To address the issue of high false positive and false negative rates in current single-threshold detection methods, a novel approach involves constructing fuzzy logic membership functions based on outlier characteristics and three thresholds. After normalization and exponential weighted smoothing, a new detection metric is formed, and an adaptive outlier detection control criterion is designed. Results: The results demonstrate the effectiveness of the proposed method. It enhances the determination capability of detection metrics in overlapping areas, effectively reducing false positive rates exceeding 93% compared to traditional methods. Additionally, the method incorporates adaptive adjustment of the detection time window, rapid response speed, and high detection success rate exceeding 98%. Conclusions: This algorithm improves the ability to assess measurements in overlapping regions while incorporating the feature of adaptively adjusting the detection time window. Outliers are almost never missed, and it responds quickly to abnormal conditions after the recovery process, promptly releasing fault warnings. Overall, compared to conventional detection methods, this algorithm significantly improving the efficiency of outlier detection and enhancing the reliability of GNSS/INS integrated navigation positioning.

     

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