Human Recognition and Tracking in Narrow Indoor Environment using 3D Lidar Sensor

Jae-Seong Yoon, Sanghyeon Bae, Tae-Yong Kuc
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引用次数: 5

Abstract

This paper studies the human recognition, tracking, and clustering method in an indoor environment using a 3D lidar sensor and discusses two major issues in clustering. The first problem is when the Euclidean distance-based clustering is used, where a wall and a person are frequently clustered into one object. The other issue is that there is some noise due to reflective materials such as glass or marble. In order to cluster objects and recognize humans in this environment, we proposed a pre-processing sequence module for clustering. The pre-processing module composed in 5 steps that can remove walls around the robot and reduce the point cloud noise. We embedded this whole process in the robot system and it works while the robot is in motion.
基于三维激光雷达传感器的狭窄室内环境中人的识别与跟踪
本文利用三维激光雷达传感器研究了室内环境下人体识别、跟踪和聚类方法,并讨论了聚类中的两个主要问题。第一个问题是当使用基于欧几里得距离的聚类时,一个墙和一个人经常聚在一个对象中。另一个问题是,由于玻璃或大理石等反光材料,会产生一些噪音。为了在这种环境下对目标进行聚类和识别,我们提出了一种聚类预处理序列模块。预处理模块由5个步骤组成,可以去除机器人周围的墙壁,降低点云噪声。我们把这整个过程嵌入到机器人系统中,它在机器人运动时也能工作。
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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