Abstract
Defects on the surface of steel plates are one of the most important factors affecting the quality of steel plates. It is of great importance to detect such defects through online surface inspection systems, whose ability of defect identification comes from self-learning through training samples. Extreme Learning Machine (ELM) is a fast machine learning algorithm with a high accuracy of identification. ELM is implemented by a hidden matrix generated with random initialization parameters, while different parameters usually result in different performances. To solve this problem, an improved ELM algorithm combined with a Genetic Algorithm was proposed and applied for the surface defect identification of hot rolled steel plates. The output matrix of the ELM’s hidden layers was treated as a chromosome, and some novel iteration rules were added. The algorithm was tested with 1675 samples of hot rolled steel plates, including pockmarks, chaps, scars, longitudinal cracks, longitudinal scratches, scales, transverse cracks, transverse scratches, and roll marks. The results showed that the highest identification accuracies for the training and the testing set obtained by the G-ELM (Genetic Extreme Learning Machine) algorithm were 98.46% and 94.30%, respectively, which were about 5% higher than those obtained by the ELM algorithm.
Highlights
Surface defects detection technique is widely applied in industrial scenarios [1]
90.67 algorithm can offset the uncertainties caused by Extreme Learning Machine (ELM) randomization
Results of experiments with nine typical defect samples showed that the G-ELM algorithm effectively improved the identification accuracy of
Summary
The surface quality inspection of steel plate has passed through three stages of development, including manual visual inspection, traditional non-destructive testing, and machine vision detection. Artificial visual inspection commonly uses the stroboscopic method [2], which sets up a high-frequency flashing light source above the production lines, and uses the persistence of human vision to achieve high-speed inspection of steel plates. This kind of detection causes great damage to the human body, and could result in optic fatigue as well as a higher false inspection rate. In the 1980s, some organizations [3]
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