On Robot Localization Safety for Fixed-Lag Smoothing: Quantifying the Risk of Misassociation

2020 IEEE/ION Position, Location and Navigation Symposium (PLANS) Pub Date : 2020-04-01 DOI:10.1109/PLANS46316.2020.9110126

O. A. Hafez, Guillermo Duenas Arana, Yihe Chen, M. Joerger, M. Spenko

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引用次数: 2

Abstract

Monitoring localization safety will be necessary to certify the performance of robots that operate in life-critical applications, such as autonomous passenger vehicles or delivery drones because many current localization safety methods do not account for the risk of undetected sensor faults. One type of fault, misassociation, occurs when a feature extracted from a mapped landmark is associated to a non-corresponding landmark and is a common source of error in feature-based navigation applications. This paper accounts for the probability of misassociation when quantifying landmark-based mobile robot localization safety for fixed-lag smoothing estimators. We derive a mobile robot localization safety bound and evaluate it using simulations and experimental data in an urban environment. Results show that localization safety suffers when landmark density is relatively low such that there are not enough landmarks to adequately localize and when landmark density is relatively high because of the high risk of feature misassociation.

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基于固定滞后平滑的机器人定位安全性研究:误关联风险的量化

监控定位安全对于验证机器人在关键应用(如自动乘用车或送货无人机)中的性能是必要的，因为许多当前的定位安全方法都没有考虑到未检测到的传感器故障的风险。当从映射的地标中提取的特征与不对应的地标相关联时，就会发生错误关联，这是基于特征的导航应用程序中常见的错误来源。本文考虑了固定滞后平滑估计器在量化基于地标的移动机器人定位安全性时的误关联概率。我们推导了一个移动机器人定位安全边界，并在城市环境中使用模拟和实验数据对其进行了评估。结果表明，当地标密度较低时，没有足够的地标来充分定位，当地标密度较高时，由于特征误关联的风险较高，定位安全性受到影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE/ION Position, Location and Navigation Symposium (PLANS)

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