A Collaborative Visual Localization Scheme for a Low-Cost Heterogeneous Robotic Team With Non-Overlapping Perspectives

Volume 5A: 43rd Mechanisms and Robotics Conference Pub Date : 2019-11-25 DOI:10.1115/detc2019-97377

Benjamin Abruzzo, D. Cappelleri, Philippos Mordohai

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Abstract

This paper presents and evaluates a relative localization scheme for a heterogeneous team of low-cost mobile robots. An error-state, complementary Kalman Filter was developed to fuse analytically-derived uncertainty of stereoscopic pose measurements of an aerial robot, made by a ground robot, with the inertial/visual proprioceptive measurements of both robots. Results show that the sources of error, image quantization, asynchronous sensors, and a non-stationary bias, were sufficiently modeled to estimate the pose of the aerial robot. In both simulation and experiments, we demonstrate the proposed methodology with a heterogeneous robot team, consisting of a UAV and a UGV tasked with collaboratively localizing themselves while avoiding obstacles in an unknown environment. The team is able to identify a goal location and obstacles in the environment and plan a path for the UGV to the goal location. The results demonstrate localization accuracies of 2cm to 4cm, on average, while the robots operate at a distance from each-other between 1m and 4m.

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基于非重叠视角的低成本异构机器人团队协同视觉定位方案

本文提出并评价了一种低成本移动机器人异构团队的相对定位方案。开发了一种误差状态互补卡尔曼滤波器，用于融合由地面机器人进行的空中机器人的立体姿态测量的解析衍生不确定性，以及两个机器人的惯性/视觉本体感受测量。结果表明，对误差来源、图像量化、异步传感器和非平稳偏差进行了充分的建模，以估计空中机器人的姿态。在仿真和实验中，我们用一个异构机器人团队演示了所提出的方法，该团队由一架无人机和一架UGV组成，任务是协同定位自己，同时避开未知环境中的障碍物。该团队能够识别环境中的目标位置和障碍物，并为UGV规划到达目标位置的路径。结果表明，当机器人彼此之间的距离在1米到4米之间时，定位精度平均为2厘米到4厘米。

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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Volume 5A: 43rd Mechanisms and Robotics Conference

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