Global Localization for a Mobile Robot Using Laser Reflectance and Particle Filter

Dong Zhang, R. Kurazume
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Abstract

Global localization is a fundamental requirement for a mobile robot. Map-based global local- ization is a popular technique and gives a precise position by comparing a provided geometric map and current sensory data. However, it is quite time-consuming if 3D range data is processed for 6D global lo- calization. On the other hand, appearance-based global localization using a captured image and recorded images is simple and suitable for real-time processing. However, this technique does not work in the dark or in an environment in which the lighting conditions change remarkably. To cope with these problems, we have proposed a two-step strategy which combines map-based global localization and appearance-based global localization. Firstly, several candidate positions are selected according to an appearance-based technique, and then the optimum position is determined by a map-based technique. Instead of camera images, we use reflectance images, which are captured by a laser range finder as a by-product of range sensing. In this paper, a new technique based on this global localization technique is proposed by combin- ing the two step algorithm and a sampling-based approach. To cope with the odometry data, a particle filter is adopted for tracking robot positions. The effectiveness of the proposed technique is demonstrated through experiments in real environments.
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基于激光反射和粒子滤波的移动机器人全局定位
全局定位是移动机器人的基本要求。基于地图的全局定位是一种流行的技术,它通过比较提供的几何地图和当前的感官数据来给出精确的位置。然而,如果对三维距离数据进行6D全局定位,则会耗费大量的时间。另一方面,使用捕获图像和记录图像的基于外观的全局定位简单且适合实时处理。然而,这种技术在黑暗或光照条件变化显著的环境中不起作用。为了解决这些问题,我们提出了一种基于地图的全局定位和基于外观的全局定位相结合的两步策略。首先,根据基于外观的技术选择多个候选位置,然后通过基于地图的技术确定最佳位置。我们使用反射图像代替相机图像,反射图像由激光测距仪捕获,作为距离传感的副产品。本文在此基础上,提出了一种将两步算法与基于采样的方法相结合的全局定位方法。为了处理里程计数据,采用粒子滤波对机器人位置进行跟踪。通过在实际环境中的实验验证了该方法的有效性。
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来源期刊
CiteScore
0.20
自引率
0.00%
发文量
3
期刊介绍: Research Reports on Information Science and Electrical Engineering of Kyushu University provides quick publication in English or in Japanese on the most recent findings and achievements in the Faculty of Information Science and Electrical Engineering, Kyushu University.
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