![]() ![]() 3D Machine Vision (using 3D scanners, RGB-D devices, etc.).2D Machine Vision (using industrial cameras, line scan scameras, optical fibers, spectrophotometers, etc.). ![]() In the Special Issue, we want to address, in particular, but not exclusively, recent advances in the following topics: Hybrid techniques that combine the integration of AV with Artificial Intelligence are encouraged. Contributed papers can vary from basic science to practical methods and from new developments to future perspectives. In this context, the present Special Issue aims to promote papers related to Artificial Vision findings and applications in all industrial fields, with a particular focus on the textile industry. This is even more true in recent years where we have witnessed an increasing development of 2D and 3D acquisition methods that can impair the quality of inspection. Using such systems, it is possible to provide defect detection, classification, measurements and quali-quantitative certification of inspected products quality. Human-based inspection is inefficient due to high labour intensity and it often leads to unreliable and unrepeatable results.Īrtificial Vision (AV) proved to be effective in overcoming human-based inspection by both using 2D Machine Vision and by developing 3D-based acquisition. In the manufacturing sector, and even more in the textile industry, inspection of products is a crucial task to improve the quality and to reduce the cost. This Special Issue features articles related to Sustainable Industry with particular reference to the development of advanced systems based on 2D and 3D Artificial Vision for industrial and textile control. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |