1. Autonomous Robotic Manipulation: Real-Time, Deep-Learning Approach for Grasping of Unknown Objects.
- Author
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Sayour, Malak H., Kozhaya, Sharbel E., and Saab, Samer S.
- Subjects
PREHENSION (Physiology) ,CONVOLUTIONAL neural networks ,ROBOTICS ,OBJECT manipulation ,IMAGE segmentation ,TRACKING algorithms ,DEEP learning - Abstract
Recent advancement in vision-based robotics and deep-learning techniques has enabled the use of intelligent systems in a wider range of applications requiring object manipulation. Finding a robust solution for object grasping and autonomous manipulation became the focus of many engineers and is still one of the most demanding problems in modern robotics. This paper presents a full grasping pipeline proposing a real-time data-driven deep-learning approach for robotic grasping of unknown objects using MATLAB and convolutional neural networks. The proposed approach employs RGB-D image data acquired from an eye-in-hand camera centering the object of interest in the field of view using visual servoing. Our approach aims at reducing propagation errors and eliminating the need for complex hand tracking algorithm, image segmentation, or 3D reconstruction. The proposed approach is able to efficiently generate reliable multi-view object grasps regardless of the geometric complexity and physical properties of the object in question. The proposed system architecture enables simple and effective path generation and a real-time tracking control. In addition, our system is modular, reliable, and accurate in both end effector path generation and control. We experimentally justify the efficacy and effectiveness of our overall system on the Barrett Whole Arm Manipulator. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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