Set-theoretic localization for mobile robots with infrastructure-based sensing

Advanced Control for Applications Pub Date : 2022-11-02 DOI:10.1002/adc2.117

Xiao Li, Yutong Li, Nan Li, Anouck Girard, Ilya Kolmanovsky

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Abstract

In this article, we propose a set-membership based localization approach for mobile robots using infrastructure-based sensing. Under an assumption of known uncertainties bounds of the noise in the sensor measurement and robot motion models, the proposed method computes uncertainty sets that over-bound the robot 2D body and orientation via set-valued motion propagation and subsequent measurement update from infrastructure-based sensing. We establish theoretical properties and computational approaches for this set-theoretic localization method and illustrate its application to an automated valet parking example in simulations, and to omnidirectional robot localization problems in real-world experiments. With deteriorating uncertainties in system parameters and initialization parameters, we conduct sensitivity analysis and demonstrate that the proposed method, in comparison to the FastSLAM, has a milder performance degradation, thus is more robust against the changes in the parameters. Meanwhile, the proposed method can provide estimates with smaller standard deviation values.

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基于基础设施感知的移动机器人集论定位

在本文中，我们提出了一种基于集合成员关系的移动机器人定位方法，该方法使用基于基础设施的传感。在传感器测量和机器人运动模型中噪声的已知不确定性边界的假设下，所提出的方法通过集值运动传播和基于基础设施的传感的后续测量更新来计算超出机器人2D身体和方向的不确定性集。我们建立了这种集合论定位方法的理论性质和计算方法，并说明了它在模拟中的自动代客泊车示例以及在真实世界实验中的全向机器人定位问题中的应用。随着系统参数和初始化参数的不确定性不断恶化，我们进行了灵敏度分析，并证明与FastSLAM相比，所提出的方法具有较温和的性能退化，因此对参数的变化更具鲁棒性。同时，所提出的方法可以提供具有较小标准偏差值的估计。

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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来源期刊

Advanced Control for Applications

CiteScore

2.60

自引率

0.00%

发文量