An improved 3D imaging system for dimensional quality inspection of rolled products in the metal industry

Measurement, inspection and quality control in industry have benefited from 3D techniques for imaging and visualization in recent years. The development of machine vision devices at decreased costs, as well as their miniaturization and integration in industrial processes, have accelerated the use of...

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Veröffentlicht in:	Computers in industry 2013-12, Vol.64 (9), p.1186-1200
Hauptverfasser:	Molleda, Julio, Usamentiaga, Rubén, García, Daniel F., Bulnes, Francisco G., Espina, Adrián, Dieye, Bassiru, Smith, Lyndon N.
Format:	Artikel
Sprache:	eng
Schlagworte:	3D imaging in industry 3D surface reconstruction Active triangulation Dimensional quality inspection Inspections Line detection and extraction Measurement techniques Metal industry Quality control Studies Three dimensional imaging
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creator	Molleda, Julio Usamentiaga, Rubén García, Daniel F. Bulnes, Francisco G. Espina, Adrián Dieye, Bassiru Smith, Lyndon N.
description	Measurement, inspection and quality control in industry have benefited from 3D techniques for imaging and visualization in recent years. The development of machine vision devices at decreased costs, as well as their miniaturization and integration in industrial processes, have accelerated the use of 3D imaging systems in industry. In this paper we describe how to improve the performance of a 3D imaging system for inline dimensional quality inspection of long, flat-rolled metal products manufactured in rolling mills we designed and developed in previous works. Two dimensional characteristics of rolled products are measured by the system: width and flatness. The system is based on active triangulation using a single-line pattern projected onto the surface of the product under inspection for range image acquisition. Taking the system calibration into account the range images are transformed into a calibrated point cloud representing the 3D surface reconstruction of the product. Two approaches to improve the line detection and extraction method used in the original system are discussed, one intended for high-speed processing with lower accuracy, and the other providing high accuracy while incurring higher computational time expenses. A mechanism to remove, or at least reduce, the effects of product movements while manufacturing, such as bouncing and flapping, is also proposed to improve the performance of the system.
doi_str_mv	10.1016/j.compind.2013.05.002
format	Article
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subjects	3D imaging in industry 3D surface reconstruction Active triangulation Dimensional quality inspection Inspections Line detection and extraction Measurement techniques Metal industry Quality control Studies Three dimensional imaging
title	An improved 3D imaging system for dimensional quality inspection of rolled products in the metal industry
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