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Efficient and Feasible Robotic Assembly Sequence Planning via Graph Representation Learning

Matan Atad, Jianxiang Feng, Ismael Rodrı́guez, Maximilian Durner, Rudolph Triebel

202315 citationsDOI

Abstract

Automatic Robotic Assembly Sequence Planning (RASP) can significantly improve productivity and resilience in modern manufacturing along with the growing need for greater product customization. One of the main challenges in realizing such automation resides in efficiently finding solutions from a growing number of potential sequences for increasingly complex assemblies. Besides, costly feasibility checks are always required for the robotic system. To address this, we propose a holistic graphical approach including a graph representation called Assembly Graph for product assemblies and a policy architecture, Graph Assembly Processing Network, dubbed GRACE for assembly sequence generation. With GRACE, we are able to extract meaningful information from the graph input and predict assembly sequences in a step-by-step manner. In experiments, we show that our approach can predict feasible assembly sequences across product variants of aluminum profiles based on data collected in simulation of a dual-armed robotic system. We further demonstrate that our method is capable of detecting infeasible assemblies, substantially alleviating the undesirable impacts from false predictions, and hence facilitating real-world deployment soon. Code and training data are available at https://github.com/DLR-RM/GRACE.

Topics & Concepts

Computer scienceGraphSoftware deploymentAutomationPersonalizationDistributed computingRepresentation (politics)RobotSequence (biology)Software engineeringTheoretical computer scienceArtificial intelligenceEngineeringPolitical scienceLawPoliticsWorld Wide WebGeneticsMechanical engineeringBiologyManufacturing Process and OptimizationMachine Learning in Materials ScienceRobot Manipulation and Learning
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