Review of machine learning in robotic grasping control in space application
Author:
Funder
Natural Sciences and Engineering Research Council of Canada
Publisher
Elsevier BV
Reference146 articles.
1. Vision-based robotic grasping from object localization, object pose estimation to grasp estimation for parallel grippers: a review;Du;Artif. Intell. Rev.,2021
2. Robotic manipulation and sensing of deformable objects in domestic and industrial applications: a survey;Sanchez;Int. J. Robot Res.,2018
3. Robotic grasp detection using deep convolutional neural networks;Kumra;CoRR abs/1611,2016
4. A statistical review of industrial robotic grippers;Birglen;Robot. Comput. Integrated Manuf.,2018
5. A review: machine learning on robotic grasping;Li;SPIE,2019
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