Obstacle detection and obstacle-surmounting planning for a wheel-legged robot based on Lidar

Ruoxing Wang, Shoukun Wang, Junfeng Xue, Zhihua Chen, Jinge Si
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Abstract

Purpose This paper aims to investigate an autonomous obstacle-surmounting method based on a hybrid gait for the problem of crossing low-height obstacles autonomously by a six wheel-legged robot. The autonomy of obstacle-surmounting is reflected in obstacle recognition based on multi-frame point cloud fusion. Design/methodology/approach In this paper, first, for the problem that the lidar on the robot cannot scan the point cloud of low-height obstacles, the lidar is driven to rotate by a 2D turntable to obtain the point cloud of low-height obstacles under the robot. Tightly-coupled Lidar Inertial Odometry via Smoothing and Mapping algorithm, fast ground segmentation algorithm and Euclidean clustering algorithm are used to recognize the point cloud of low-height obstacles and obtain low-height obstacle in-formation. Then, combined with the structural characteristics of the robot, the obstacle-surmounting action planning is carried out for two types of obstacle scenes. A segmented approach is used for action planning. Gait units are designed to describe each segment of the action. A gait matrix is used to describe the overall action. The paper also analyzes the stability and surmounting capability of the robot’s key pose and determines the robot’s surmounting capability and the value scheme of the surmounting control variables. Findings The experimental verification is carried out on the robot laboratory platform (BIT-6NAZA). The obstacle recognition method can accurately detect low-height obstacles. The robot can maintain a smooth posture to cross low-height obstacles, which verifies the feasibility of the adaptive obstacle-surmounting method. Originality/value The study can provide the theory and engineering foundation for the environmental perception of the unmanned platform. It provides environmental information to support follow-up work, for example, on the planning of obstacles and obstacles.
基于激光雷达的轮足机器人障碍物检测和越障规划
目的 本文旨在研究一种基于混合步态的自主障碍物跨越方法,以解决六轮足机器人自主跨越低高度障碍物的问题。本文首先针对机器人上的激光雷达无法扫描低高度障碍物点云的问题,通过二维转盘驱动激光雷达旋转,获取机器人下方的低高度障碍物点云。通过平滑与映射算法、快速地面分割算法和欧几里得聚类算法紧密耦合激光雷达惯性测距,识别低高度障碍物点云,获得低高度障碍物内构型。然后,结合机器人的结构特点,对两种障碍场景进行越障动作规划。行动规划采用分段式方法。设计了步态单元来描述每段动作。步态矩阵用于描述整体动作。本文还分析了机器人关键姿势的稳定性和越障能力,确定了机器人的越障能力和越障控制变量的取值方案。障碍物识别方法能够准确检测到低高度障碍物。原创性/价值该研究可为无人平台的环境感知提供理论和工程基础,为后续工作提供环境信息支持。它为后续工作提供了环境信息支持,例如障碍物和障碍物的规划。
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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