位置概率网格的位置跟踪

Proceedings of the First Euromicro Workshop on Advanced Mobile Robots (EUROBOT '96) Pub Date : 1996-10-09 DOI:10.1109/EURBOT.1996.551874

Wolfram Burgard, D. Fox, D. Hennig, Timo Schmidt

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引用次数: 34

摘要

移动机器人领域的主要问题之一是机器人在环境中的位置估计。位置概率网格已被证明是一种可靠的移动机器人绝对位置估计技术。本文描述了位置概率网格在机器人位置跟踪中的应用。我们的方法与以前的方法的主要区别在于，位置概率网格技术是一种贝叶斯方法，能够处理有噪声的传感器以及歧义，并且能够随着时间的推移整合不同类型传感器的传感器读数。给定一个起始位置，该方法通过将传感器读数与环境的度量模型相匹配来估计机器人的当前位置。本文描述的结果说明了该方法对噪声传感器和环境模型误差的鲁棒性。

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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Position tracking with position probability grids

One of the main problems in the field of mobile robotics is the estimation of the robot's position in the environment. Position probability grids have been proven to be a robust technique for the estimation of the absolute position of a mobile robot. In this paper we describe an application of position probability grids to the tracking of the position of the robot. The main difference of our method to previous approaches lies in the fact that the position probability grid technique is a Bayesian approach which is able to deal with noisy sensors as well as ambiguities and is able to integrate sensor readings of different types of sensors over time. Given a starting position this method estimates the robot's current position by matching sensor readings against a metric model of the environment. Results described in this paper illustrate the robustness of this method against noisy sensors and errors in the environmental model.

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Proceedings of the First Euromicro Workshop on Advanced Mobile Robots (EUROBOT '96)

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