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Learning Object Relations with Graph Neural Networks for Target-Driven Grasping in Dense Clutter

Xibai Lou, Yang Yang, Changhyun Choi

20222022 International Conference on Robotics and Automation (ICRA)17 citationsDOI

Abstract

Robots in the real world frequently come across identical objects in dense clutter. When evaluating grasp poses in these scenarios, a target-driven grasping system requires knowledge of spatial relations between scene objects (e.g., proximity, adjacency, and occlusions). To efficiently complete this task, we propose a target-driven grasping system that simultaneously considers object relations and predicts 6-DoF grasp poses. A densely cluttered scene is first formulated as a grasp graph with nodes representing object geometries in the grasp coordinate frame and edges indicating spatial relations between the objects. We design a Grasp Graph Neural Network (G2N2) that evaluates the grasp graph and finds the most feasible 6-DoF grasp pose for a target object. Additionally, we develop a shape completion-assisted grasp pose sampling method that improves sample quality and consequently grasping efficiency. We compare our method against several baselines in both simulated and real settings. In real-world experiments with novel objects, our approach achieves a 77.78% grasping accuracy in densely cluttered scenarios, surpassing the best-performing baseline by more than 15%. Supplementary material is available at https://sites.google.com/umn.edu/graph-grasping.

Topics & Concepts

GRASPClutterArtificial intelligenceComputer scienceComputer visionGraphObject (grammar)RobotTheoretical computer scienceRadarTelecommunicationsProgramming languageRobot Manipulation and LearningMultimodal Machine Learning ApplicationsReinforcement Learning in Robotics
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