Improving robustness and precision in mobile robot localization by using laser range finding and monocular vision

1999 Third European Workshop on Advanced Mobile Robots (Eurobot'99). Proceedings (Cat. No.99EX355) Pub Date : 1999-09-06 DOI:10.1109/EURBOT.1999.827638

K. Arras, N. Tomatis

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引用次数: 71

Abstract

The paper discusses mobile robot localization by means of geometric features from a laser range finder and a CCD camera. The features are line segments from the laser scanner and vertical edges from the camera. Emphasis is put on sensor models with a strong physical basis. For both sensors, uncertainties in the calibration and measurement process are adequately modeled and propagated through the feature extractors. This yields observations with their first order covariance estimates which are passed to an extended Kalman filter for fusion and position estimation. Experiments on a real platform show that, opposed to the use of the laser range finder only, the multisensor setup allows the uncertainty to stay bounded in difficult localization situations like long corridors, and contributes to an important reduction of uncertainty, particularly in the orientation. The experiments further demonstrate the applicability of such a multisensor localization system in real time on a fully autonomous robot.

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利用激光测距和单目视觉提高移动机器人定位的鲁棒性和精度

本文讨论了利用激光测距仪和CCD相机的几何特征对移动机器人进行定位。这些特征是来自激光扫描仪的线段和来自相机的垂直边缘。重点放在具有强大物理基础的传感器模型上。对于这两种传感器，校准和测量过程中的不确定性都充分建模并通过特征提取器传播。这产生了带有一阶协方差估计的观测值，这些估计被传递给扩展卡尔曼滤波器进行融合和位置估计。在真实平台上的实验表明，与仅使用激光测距仪相反，多传感器设置允许不确定性在长走廊等困难的定位情况下保持有限，并有助于减少不确定性，特别是在方向上。实验进一步证明了该多传感器定位系统在全自主机器人上的实时适用性。

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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1999 Third European Workshop on Advanced Mobile Robots (Eurobot'99). Proceedings (Cat. No.99EX355)

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