A systematic strategy of pallet identification and picking based on deep learning techniques

IF 1.9 4区计算机科学 Q3 ENGINEERING, INDUSTRIAL Industrial Robot-The International Journal of Robotics Research and Application Pub Date : 2023-01-11 DOI:10.1108/ir-05-2022-0123

Yongyao Li, Guanyu Ding, Chao Li, Sen Wang, Qinglei Zhao, Qi Song

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Abstract

Purpose This paper presents a comprehensive pallet-picking approach for forklift robots, comprising a pallet identification and localization algorithm (PILA) to detect and locate the pallet and a vehicle alignment algorithm (VAA) to align the vehicle fork arms with the targeted pallet. Design/methodology/approach Opposing vision-based methods or point cloud data strategies, we utilize a low-cost RGB-D camera, and thus PILA exploits both RGB and depth data to quickly and precisely recognize and localize the pallet. The developed method guarantees a high identification rate from RGB images and more precise 3D localization information than a depth camera. Additionally, a deep neural network (DNN) method is applied to detect and locate the pallet in the RGB images. Specifically, the point cloud data is correlated with the labeled region of interest (RoI) in the RGB images, and the pallet's front-face plane is extracted from the point cloud. Furthermore, PILA introduces a universal geometrical rule to identify the pallet's center as a “T-shape” without depending on specific pallet types. Finally, VAA is proposed to implement the vehicle approaching and pallet picking operations as a “proof-of-concept” to test PILA’s performance. Findings Experimentally, the orientation angle and centric location of the two kinds of pallets are investigated without any artificial marking. The results show that the pallet could be located with a three-dimensional localization accuracy of 1 cm and an angle resolution of 0.4 degrees at a distance of 3 m with the vehicle control algorithm. Research limitations/implications PILA’s performance is limited by the current depth camera’s range (< = 3 m), and this is expected to be improved by using a better depth measurement device in the future. Originality/value The results demonstrate that the pallets can be located with an accuracy of 1cm along the x, y, and z directions and affording an angular resolution of 0.4 degrees at a distance of 3m in 700ms.

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基于深度学习技术的托盘识别和挑选系统策略

本文提出了一种用于叉车机器人的综合托盘拾取方法，包括用于检测和定位托盘的托盘识别和定位算法(PILA)和用于将车辆叉臂与目标托盘对齐的车辆对齐算法(VAA)。与基于视觉的方法或点云数据策略相反，我们利用低成本的RGB- d相机，因此PILA利用RGB和深度数据来快速准确地识别和定位托盘。所开发的方法保证了RGB图像的高识别率和比深度相机更精确的三维定位信息。此外，采用深度神经网络(DNN)方法对RGB图像中的托盘进行检测和定位。具体而言，将点云数据与RGB图像中的标记感兴趣区域(RoI)相关联，并从点云中提取托盘的正面平面。此外，PILA引入了一种通用的几何规则来识别托盘的中心为“t形”，而不依赖于特定的托盘类型。最后，VAA被提议实施车辆接近和托盘拾取操作，作为“概念验证”来测试PILA的性能。实验中，在不进行任何人工标记的情况下，研究了两种托盘的取向角和中心位置。结果表明，利用车辆控制算法，在3 m距离内，托盘的三维定位精度为1 cm，角度分辨率为0.4度。spila的性能受到当前深度相机范围(< = 3 m)的限制，未来有望通过使用更好的深度测量设备来改善这一点。独创性/价值结果表明，托盘可以沿x, y和z方向定位精度为1cm，并在700ms内提供0.4度的角分辨率，距离为3m。

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来源期刊

Industrial Robot-The International Journal of Robotics Research and Application 工程技术-工程：工业

CiteScore

4.50

自引率

16.70%

发文量

审稿时长

5.7 months

期刊介绍： Industrial Robot publishes peer reviewed research articles, technology reviews and specially commissioned case studies. Each issue includes high quality content covering all aspects of robotic technology, and reflecting the most interesting and strategically important research and development activities from around the world. The journal’s policy of not publishing work that has only been tested in simulation means that only the very best and most practical research articles are included. This ensures that the material that is published has real relevance and value for commercial manufacturing and research organizations. Industrial Robot''s coverage includes, but is not restricted to: Automatic assembly Flexible manufacturing Programming optimisation Simulation and offline programming Service robots Autonomous robots Swarm intelligence Humanoid robots Prosthetics and exoskeletons Machine intelligence Military robots Underwater and aerial robots Cooperative robots Flexible grippers and tactile sensing Robot vision Teleoperation Mobile robots Search and rescue robots Robot welding Collision avoidance Robotic machining Surgical robots Call for Papers 2020 AI for Autonomous Unmanned Systems Agricultural Robot Brain-Computer Interfaces for Human-Robot Interaction Cooperative Robots Robots for Environmental Monitoring Rehabilitation Robots Wearable Robotics/Exoskeletons.