Gaussian Variational Inference with Covariance Constraints Applied to Range-only Localization

2022 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) Pub Date : 2022-10-23 DOI:10.1109/IROS47612.2022.9981520

Abhishek Goudar, Wenda Zhao, T. Barfoot, Angela P. Schoellig

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引用次数: 2

Abstract

Accurate and reliable state estimation is becoming increasingly important as robots venture into the real world. Gaussian variational inference (GVI) is a promising alternative for nonlinear state estimation, which estimates a full probability density for the posterior instead of a point estimate as in maximum a posteriori (MAP)-based approaches. GVI works by optimizing for the parameters of a multivariate Gaussian (MVG) that best agree with the observed data. However, such an optimization procedure must ensure the parameter constraints of a MVG are satisfied; in particular, the inverse covariance matrix must be positive definite. In this work, we propose a tractable algorithm for performing state estimation using GVI that guarantees that the inverse covariance matrix remains positive definite and is well-conditioned throughout the optimization procedure. We evaluate our method extensively in both simulation and real-world experiments for range-only localization. Our results show GVI is consistent on this problem, while MAP is over-confident.

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基于协方差约束的高斯变分推理在距离定位中的应用

随着机器人进入现实世界，准确可靠的状态估计变得越来越重要。高斯变分推理(GVI)是一种很有前途的非线性状态估计替代方法，它对后验进行全概率密度估计，而不是像基于最大后验(MAP)的方法那样进行点估计。GVI通过优化最符合观测数据的多元高斯(MVG)参数来工作。然而，这种优化过程必须保证MVG的参数约束得到满足;特别是，逆协方差矩阵必须是正定的。在这项工作中，我们提出了一种易于处理的算法，用于使用GVI进行状态估计，该算法保证逆协方差矩阵在整个优化过程中保持正定并且是良好条件的。我们在模拟和真实世界的实验中广泛评估了我们的方法，用于仅距离定位。我们的结果表明GVI在这个问题上是一致的，而MAP则过于自信。

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

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

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