English

Find the Assembly Mistakes: Error Segmentation for Industrial Applications

Computer Vision and Pattern Recognition 2024-08-26 v1

Abstract

Recognizing errors in assembly and maintenance procedures is valuable for industrial applications, since it can increase worker efficiency and prevent unplanned down-time. Although assembly state recognition is gaining attention, none of the current works investigate assembly error localization. Therefore, we propose StateDiffNet, which localizes assembly errors based on detecting the differences between a (correct) intended assembly state and a test image from a similar viewpoint. StateDiffNet is trained on synthetically generated image pairs, providing full control over the type of meaningful change that should be detected. The proposed approach is the first to correctly localize assembly errors taken from real ego-centric video data for both states and error types that are never presented during training. Furthermore, the deployment of change detection to this industrial application provides valuable insights and considerations into the mechanisms of state-of-the-art change detection algorithms. The code and data generation pipeline are publicly available at: https://timschoonbeek.github.io/error_seg.

Keywords

Cite

@article{arxiv.2408.12945,
  title  = {Find the Assembly Mistakes: Error Segmentation for Industrial Applications},
  author = {Dan Lehman and Tim J. Schoonbeek and Shao-Hsuan Hung and Jacek Kustra and Peter H. N. de With and Fons van der Sommen},
  journal= {arXiv preprint arXiv:2408.12945},
  year   = {2024}
}

Comments

23 pages (14 main paper, 2 references, 7 supplementary), 15 figures (8 main paper, 7 supplementary). Accepted at ECCV Vision-based InduStrial InspectiON (VISION) workshop

R2 v1 2026-06-28T18:21:54.067Z