Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles

Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles

In this study we present an autonomous grasping system that uses a vision-guided hand–eye coordination policy with closed-loop vision-based control to ensure a sufficient task success rate while maintaining acceptable manipulation precision. When facing a diversity of tasks with complex environments...

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Bibliographic Details
Main Authors: Hui Wei, Sicong Pan, Gang Ma, Xiao Duan
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:AI
Subjects:
robotic grasping
vision-guided
hand–eye coordination
Online Access:https://www.mdpi.com/2673-2688/2/2/13
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spelling doaj-bb3dd3d5c50c4b5d8a5bc69e199fca1b2021-05-31T23:12:44ZengMDPI AGAI2673-26882021-05-0121320922810.3390/ai2020013Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram PuzzlesHui Wei0Sicong Pan1Gang Ma2Xiao Duan3Laboratory of Algorithms for Cognitive Models, School of Computer Science and Technology, Fudan University, Shanghai 200433, ChinaLaboratory of Algorithms for Cognitive Models, School of Computer Science and Technology, Fudan University, Shanghai 200433, ChinaLaboratory of Algorithms for Cognitive Models, School of Computer Science and Technology, Fudan University, Shanghai 200433, ChinaLaboratory of Algorithms for Cognitive Models, School of Computer Science and Technology, Fudan University, Shanghai 200433, ChinaIn this study we present an autonomous grasping system that uses a vision-guided hand–eye coordination policy with closed-loop vision-based control to ensure a sufficient task success rate while maintaining acceptable manipulation precision. When facing a diversity of tasks with complex environments, an autonomous robot should use the concept of task precision, including the accuracy of perception and precision of manipulation, as opposed to just the grasping success rate typically used in previous works. Task precision combines the advantages of grasping behaviors observed in humans and a grasping method applied in existing works. A visual servoing approach and a subtask decomposition strategy are proposed here to obtain the desired level of task precision. Our system performs satisfactorily on a tangram puzzle task. The experiments highlight the accuracy of perception, precision of manipulation, and robustness of the system. Moreover, the system is of great significance for improving the adaptability and flexibility of autonomous robots.https://www.mdpi.com/2673-2688/2/2/13robotic graspingvision-guidedhand–eye coordination
collection DOAJ
language English
format Article
sources DOAJ
author Hui Wei
Sicong Pan
Gang Ma
Xiao Duan
spellingShingle Hui Wei
Sicong Pan
Gang Ma
Xiao Duan
Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles
AI
robotic grasping
vision-guided
hand–eye coordination
author_facet Hui Wei
Sicong Pan
Gang Ma
Xiao Duan
author_sort Hui Wei
title Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles
title_short Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles
title_full Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles
title_fullStr Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles
title_full_unstemmed Vision-Guided Hand–Eye Coordination for Robotic Grasping and Its Application in Tangram Puzzles
title_sort vision-guided hand–eye coordination for robotic grasping and its application in tangram puzzles
publisher MDPI AG
series AI
issn 2673-2688
publishDate 2021-05-01
description In this study we present an autonomous grasping system that uses a vision-guided hand–eye coordination policy with closed-loop vision-based control to ensure a sufficient task success rate while maintaining acceptable manipulation precision. When facing a diversity of tasks with complex environments, an autonomous robot should use the concept of task precision, including the accuracy of perception and precision of manipulation, as opposed to just the grasping success rate typically used in previous works. Task precision combines the advantages of grasping behaviors observed in humans and a grasping method applied in existing works. A visual servoing approach and a subtask decomposition strategy are proposed here to obtain the desired level of task precision. Our system performs satisfactorily on a tangram puzzle task. The experiments highlight the accuracy of perception, precision of manipulation, and robustness of the system. Moreover, the system is of great significance for improving the adaptability and flexibility of autonomous robots.
topic robotic grasping
vision-guided
hand–eye coordination
url https://www.mdpi.com/2673-2688/2/2/13
work_keys_str_mv AT huiwei visionguidedhandeyecoordinationforroboticgraspinganditsapplicationintangrampuzzles
AT sicongpan visionguidedhandeyecoordinationforroboticgraspinganditsapplicationintangrampuzzles
AT gangma visionguidedhandeyecoordinationforroboticgraspinganditsapplicationintangrampuzzles
AT xiaoduan visionguidedhandeyecoordinationforroboticgraspinganditsapplicationintangrampuzzles
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