“Off the grid”: Self-contained landmarks for improved indoor probabilistic localization

2013 IEEE Conference on Technologies for Practical Robot Applications (TePRA) Pub Date : 2013-04-22 DOI:10.1109/TePRA.2013.6556349

E. McCann, M. Medvedev, Daniel J. Brooks, Kate Saenko

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引用次数: 13

Abstract

Indoor localization is a challenging problem, especially in dynamically changing environments and in the presence of sensor errors such as odometry drift. We present a method for robustly localizing a robot in realistic indoor environments. We improve a popular probabilistic approach called Monte Carlo localization, which estimates the robot's position using depth features of the environment and is prone to errors when the topology changes (e.g., due to a moved piece of furniture). We propose a technique that improves localization by augmenting the environment with a set of QR code landmarks. Each landmark embeds information about its 3D pose relative to the world coordinate system, the same coordinate system as the map. Our algorithm detects the landmarks in images from an RGB-D camera, uses depth information to estimates their pose relative to the robot, and incorporates the resulting position evidence in a probabilistic manner. We conducted experiments on an iRobot ATRV-JR robot and show that our method is more reliable in dynamic environments than the exclusively probabilistic localization method.

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“脱离网格”:用于改进室内概率定位的独立地标

室内定位是一个具有挑战性的问题，特别是在动态变化的环境和存在传感器误差(如里程计漂移)的情况下。提出了一种在真实室内环境中对机器人进行鲁棒定位的方法。我们改进了一种称为蒙特卡罗定位的流行概率方法，该方法使用环境的深度特征来估计机器人的位置，并且在拓扑变化时容易出错(例如，由于移动的家具)。我们提出了一种技术，通过一组QR码地标来增强环境，从而提高定位。每个地标都嵌入了与世界坐标系统(与地图相同的坐标系统)相关的3D姿态信息。我们的算法检测来自RGB-D相机的图像中的地标，使用深度信息来估计它们相对于机器人的姿势，并以概率方式合并结果位置证据。在iRobot ATRV-JR机器人上进行了实验，结果表明该方法在动态环境下比纯概率定位方法更可靠。

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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2013 IEEE Conference on Technologies for Practical Robot Applications (TePRA)

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