Embedding Convolution Neural Network-Based Defect Finder for Deployed Vision Inspector in Manufacturing Company Frontec

Authors

  • Kyoung Jun Lee Kyung Hee University
  • Jun Woo Kwon Kyung Hee University
  • Soohong Min Frontec Co., Ltd.
  • Jungho Yoon Frontec Co., Ltd.

DOI:

https://doi.org/10.1609/aaai.v34i08.7020

Abstract

In collaboration with Frontec, which produces parts such as bolts and nuts for the automobile industry, Kyung Hee University and Benple Inc. develop and deploy AI system for automatic quality inspection of weld nuts. Various constraints to consider exist in adopting AI for the factory, such as response time and limited computing resources available. Our convolutional neural network (CNN) system using large-scale images must classify weld nuts within 0.2 seconds with accuracy over 95%. We designed Circular Hough Transform based preprocessing and an adjusted VGG (Visual Geometry Group) model. The system showed accuracy over 99% and response time of about 0.14 sec. We use TCP / IP protocol to communicate the embedded classification system with an existing vision inspector using LabVIEW. We suggest ways to develop and embed a deep learning framework in an existing manufacturing environment without a hardware change.

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Published

2020-04-03

How to Cite

Lee, K. J., Kwon, J. W., Min, S., & Yoon, J. (2020). Embedding Convolution Neural Network-Based Defect Finder for Deployed Vision Inspector in Manufacturing Company Frontec. Proceedings of the AAAI Conference on Artificial Intelligence, 34(08), 13164-13171. https://doi.org/10.1609/aaai.v34i08.7020

Issue

Section

IAAI Technical Track: Deployed Papers