李群上广义拉普拉斯粒子滤波在模糊多普勒导航中的应用

2022 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) Pub Date : 2022-10-23 DOI:10.1109/IROS47612.2022.9982086

C. Chahbazian, Nicolas Merlinge, K. Dahia, Bénédicte Winter-Bonnet, Aurelien Blanc, C. Musso

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引用次数: 0

摘要

粒子滤波器适用于解决在自主系统导航中有广泛应用的非线性和非高斯估计问题。前人对李群拉普拉斯粒子滤波(LG-LPF)的研究表明，与经典粒子滤波相比，它在具有挑战性的导航场景下具有鲁棒性和准确性。然而，当先验概率密度和似然具有优势模式时，LG-LPF是适用的，这缩小了该方法的应用范围。因此，本文提出了一种使用LG-LPF同时保持其优势的通用策略。其核心思想是基于局部优化计算精确的多模态重要函数，并相应地对粒子进行重新采样。该方法与欧几里得空间中设计的拉普拉斯粒子滤波器(LPF)进行了比较，用于具有模糊多普勒测量的无人机导航场景。李群方法在每种情况下都显示出更高的准确性和鲁棒性，即使粒子数量减少。

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Generalized Laplace Particle Filter on Lie Groups Applied to Ambiguous Doppler Navigation

Particle filters are suited to solve nonlinear and non-Gaussian estimation problems which find numerous applications in autonomous systems navigation. Previous works on Laplace Particle Filter on Lie groups (LG-LPF) demonstrated its robustness and accuracy on challenging navigation scenarios compared to classic particle filters. Nevertheless, LG-LPF is applicable when the prior probability density and the likelihood have a predominant mode, which narrows the scope of applications of this method. Thus, this paper proposes a generalized strategy to use LG-LPF while keeping its benefits. The core idea is to compute an accurate multimodal importance function based on local optimizations and resample the particles accordingly. This approach is compared to a Laplace Particle Filter (LPF) designed in the Euclidean space, on a UAV navigation scenario with ambiguous Doppler measurements. The Lie group approach shows improved accuracy and robustness in every case, even with a reduced number of particles.

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2022 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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