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视觉机械臂物体识别与抓取技术研究及系统开发 被引量:4

Exploring Target Recognition and Grasping Technology and Developing Vision Manipulator System
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摘要 为了实现机械臂的目标自动识别与抓取,基于深度学习检测算法DarkNet-53开展了研究工作,搭建了结合视觉机械臂的目标抓取实验平台。在深度学习框架下进行特征提取,采用YOLOv3完成了目标快速分类检测。采用基于DarkNet-53的五参数法完成了目标位姿的检测,并在物理样机上进行实验测试。研究结果表明,通过深度学习算法可以实现对目标物体的快速分类识别和抓取区域分析,实现自动识别与抓取。 In order to realize the automatic target recognition and grasping of the vision manipulator,research work is carried out based on the deep learning detection algorithm DarkNet-53,and a target grasping experimental platform combined with the vision manipulator is established.Feature extraction is performed under the deep learning framework.Adopt YOLOv3 to complete the rapid target classification detection.The five-parameter method based on the DarkNet-53 is used to complete the prediction of the target pose.The experiments on the physical prototype are carried out.The research results show that the deep learning algorithm can achieve the rapid classification and recognition of a target and the analysis of a grasping area and can realize automatic recognition and grasping.
作者 秦志民 高振清 高宝雷 文博宇 杜艳平 李宏峰 QIN Zhimin;GAO Zhenqing;GAO Baolei;WEN Boyu;DU Yanping;LI Hongfeng(School of Mechanical and Electrical Engineering,Beijing Institute of Graphic Communication,Beijing 102600,China;Beiren Intelligent Manufacturing Technology Co.,Ltd.,Beijing 102600,China)
机构地区 北京印刷学院机电工程学院 北人智能制造科技有限公司
出处 《机械科学与技术》 CSCD 北大核心 2022年第7期1018-1022,共5页 Mechanical Science and Technology for Aerospace Engineering
基金 国家新闻出版广电总局委托项目(1000400496) 北京市教委科研计划(KM201810015006) 北京印刷学院基础研究重点项目(Ea201807)。
关键词 深度学习 目标识别 位姿预测 抓取 deep learning target recognition pose prediction grasping
分类号 TG156 [金属学及工艺—热处理]
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  • 1廖启征 梁崇高 张启先.空间7R机构位移分析的新研究.机械工程学报,1986,22(3):1-9.
  • 2PAUL R P, ZHANG H. Computational efficient kinematics for manipulators with spherical wrists based on homogeneous transformation representation[J]. International Journal of Robotics Research, 1986, 5(2): 30 - 42.
  • 3DOLINSKY J U, JENKINSON I D, COLQUHOUN G J. Application of genetic programming to the calibration of industrial robots[J]. Computers in Industry, 2007, 58(3): 255 - 264.
  • 4ANGELES J. On the numerical solution to the inverse kinematics problem[J]. International Journal of Robotics Research, 1985, 4(2): 21 -37.
  • 5RAGHAVAN M, ROTH B. Kinematic analysis of the 6R manipulator of general geometry[C]//International Journal of Robotics Research. Tokyo: MIT Press, 1989:314 - 320.
  • 6MANOCHA D, CANNY J F. Efficient inverse kinematics for general 6R manipulators[J]. IEEE Transaction on Robotics and Automation, 1994, 5(9): 648 - 657.
  • 7LEE H Y, LIANG C G. Displacement analysis of the general spatial 7-link 7R mechanism[J]. Mechanism and Machine Theory, 1988, 23(3): 219 - 226.
  • 8HUSTY M L, PFURNER M, SCHROCKER H E A new and efficient algorithm for the inverse kinematics of a general serial 6R manipulator[J]. Mechanism andMachine Theory, 2007, 42(1): 66 - 81.
  • 9CHAPELLE F, BIDAUD E A closed form for inverse kinematics approximation of general 6R manipulators using genetic programming[C]//Proceedings of the 2001 IEEE International Conference on Robotics & Automation. Seoul, USA: IEEE Press, 2001: 3364 - 3369.

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机械科学与技术
2022年 第7期

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