机器人叉车堆放多个托盘与RGB-D相机

IF 0.9 Q4 ROBOTICS

Journal of Robotics and Mechatronics Pub Date : 2021-12-20 DOI:10.20965/jrm.2021.p1265

R. Iinuma, Yusuke Hori, Hiroyuki Onoyama, Y. Kubo, T. Fukao

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引用次数: 1

摘要

我们提出了一种机器人叉车系统，用于堆叠多个网格托盘。网状托盘的堆垛是货物运输和储存的一项重要任务。然而，由于托盘脚和托盘边缘的尺寸较小，托盘脚在托盘边缘上的放置是一个复杂的问题，导致检测的复杂性和对托盘调整精度的要求很高。为了准确地检测托盘，我们利用多个RGB- d (RGB深度)相机，在传感器位置的限制下产生密集的深度数据。然而，深度数据包含噪声。因此，我们实现了一种基于区域生长的算法来提取托盘脚和边缘而不移除它们。此外，我们设计了基于路径跟随控制的叉车控制律，以调整两个托盘的位置和方向。为了评估所提出的系统的性能，我们进行了一个假设真实任务的实验。实验结果表明，该系统可以实现真实叉车和网状托盘的堆垛作业。

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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Robotic Forklift for Stacking Multiple Pallets with RGB-D Cameras

We propose a robotic forklift system for stacking multiple mesh pallets. The stacking of mesh pallets is an essential task for the shipping and storage of loads. However, stacking, the placement of pallet feet on pallet edges, is a complex problem owing to the small sizes of the feet and edges, leading to a complexity in the detection and the need for high accuracy in adjusting the pallets. To detect the pallets accurately, we utilize multiple RGB-D (RGB Depth) cameras that produce dense depth data under the limitations of the sensor position. However, the depth data contain noise. Hence, we implement a region growing-based algorithm to extract the pallet feet and edges without removing them. In addition, we design the control law based on path following control for the forklift to adjust the position and orientation of two pallets. To evaluate the performance of the proposed system, we conducted an experiment assuming a real task. The experimental results demonstrated that the proposed system can achieve a stacking operation with a real forklift and mesh pallets.

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来源期刊

Journal of Robotics and Mechatronics ROBOTICS-

CiteScore

2.20

自引率

36.40%

发文量

134

期刊介绍： First published in 1989, the Journal of Robotics and Mechatronics (JRM) has the longest publication history in the world in this field, publishing a total of over 2,000 works exclusively on robotics and mechatronics from the first number. The Journal publishes academic papers, development reports, reviews, letters, notes, and discussions. The JRM is a peer-reviewed journal in fields such as robotics, mechatronics, automation, and system integration. Its editorial board includes wellestablished researchers and engineers in the field from the world over. The scope of the journal includes any and all topics on robotics and mechatronics. As a key technology in robotics and mechatronics, it includes actuator design, motion control, sensor design, sensor fusion, sensor networks, robot vision, audition, mechanism design, robot kinematics and dynamics, mobile robot, path planning, navigation, SLAM, robot hand, manipulator, nano/micro robot, humanoid, service and home robots, universal design, middleware, human-robot interaction, human interface, networked robotics, telerobotics, ubiquitous robot, learning, and intelligence. The scope also includes applications of robotics and automation, and system integrations in the fields of manufacturing, construction, underwater, space, agriculture, sustainability, energy conservation, ecology, rescue, hazardous environments, safety and security, dependability, medical, and welfare.