Visual-Odometric Localization and Mapping for Ground Vehicles Using SE(2)-XYZ Constraints

Fan Zheng, Yunhui Liu
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引用次数: 17

Abstract

This paper focuses on the localization and mapping problem on ground vehicles using odometric and monocular visual sensors. To improve the accuracy of vision based estimation on ground vehicles, researchers have exploited the constraint of approximately planar motion, and usually implemented it as a stochastic constraint on an SE(3) pose. In this paper, we propose a simpler algorithm that directly parameterizes the ground vehicle poses on SE(2). The out-of SE(2) motion perturbations are not neglected, but incorporated into an integrated noise term of a novel SE(2)-XYZ constraint, which associates an SE(2) pose and a 3D landmark via the image feature measurement. For odometric measurement processing, we also propose an efficient preintegration algorithm on SE(2). Utilizing these constraints, a complete visual-odometric localization and mapping system is developed, in a commonly used graph optimization structure. Its superior performance in accuracy and robustness is validated by real-world experiments in industrial indoor environments.
基于SE(2)-XYZ约束的地面车辆视觉里程定位与制图
本文主要研究了基于里程计和单目视觉传感器的地面车辆定位与制图问题。为了提高地面车辆视觉估计的精度,研究人员利用了近似平面运动约束,通常将其作为SE(3)位姿的随机约束来实现。在本文中,我们提出了一种更简单的算法,直接参数化地面车辆在SE(2)上的姿态。SE(2)外的运动扰动没有被忽略,而是被纳入到新的SE(2)-XYZ约束的集成噪声项中,该约束通过图像特征测量将SE(2)姿态和3D地标关联起来。对于里程测量处理,我们还提出了一种基于SE(2)的高效预积分算法。利用这些约束条件,以一种常用的图优化结构,开发了一个完整的视觉里程定位和映射系统。该方法在精度和鲁棒性方面的优异性能得到了室内工业环境实验的验证。
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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