Online Self-Supervised Learning for Accurate Pick Assembly Operation Optimization

Online Self-Supervised Learning for Accurate Pick Assembly Operation Optimization

The demand for flexible automation in manufacturing has increased, incorporating vision-guided systems for object grasping. However, a key challenge is in-hand error, where discrepancies between the actual and estimated positions of an object in the robot’s gripper impact not only the grasp but also...

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Bibliographic Details
Main Authors: Sergio Valdés, Marco Ojer, Xiao Lin
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Robotics
Subjects:
self-supervised learning
online learning
vision-guided systems
pick-and-place
in-hand error
peg-in-hole
Online Access:https://www.mdpi.com/2218-6581/14/1/4
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Summary:The demand for flexible automation in manufacturing has increased, incorporating vision-guided systems for object grasping. However, a key challenge is in-hand error, where discrepancies between the actual and estimated positions of an object in the robot’s gripper impact not only the grasp but also subsequent assembly stages. Corrective strategies used to compensate for misalignment can increase cycle times or rely on pre-labeled datasets, offline training, and validation processes, delaying deployment and limiting adaptability in dynamic industrial environments. Our main contribution is an online self-supervised learning method that automates data collection, training, and evaluation in real time, eliminating the need for offline processes. Building on this, our system collects real-time data during each assembly cycle, using corrective strategies to adjust the data and autonomously labeling them via a self-supervised approach. It then builds and evaluates multiple regression models through an auto machine learning implementation. The system selects the best-performing model to correct the misalignment and dynamically chooses between corrective strategies and the learned model, optimizing the cycle times and improving the performance during the cycle, without halting the production process. Our experiments show a significant reduction in the cycle time while maintaining the performance.
ISSN:2218-6581

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