ISSN 2079-3537      

 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                                                                                             





Scientific Visualization, 2022, volume 14, number 5, pages 108 - 118, DOI: 10.26583/sv.14.5.08

About Development and Application of a Software Platform for Machine Vision for Various Laser Technologies

Authors: A.A.  Molotkov1,А,В, O.N.  Tretiyakova2,А,В, D. N.  Tuzhilin3,B

A Moscow aviation Institute (National research University) MAI, Moscow, Russia

B Industrial Research LaboratoryLLC, SPC "Lasers and equipment TM" LLC, Moscow, Russia

1 ORCID: 0000-0002-9335-5219, karacerr@gmail.com

2 ORCID: 0000-0003-0256-4558, tretiyakova_olga@mail.ru

3 ORCID: 0000-0002-8570-1732

 

Abstract

This paper is devoted to solving problems of machine vision and scientific visualization in a field of industrial implementation of new laser technologies, in particular, the technology of selective laser melting. The result of the development of a specialized machine vision software platform is demonstrated, which makes it possible to simplify the solution of a wide range of machine vision and scientific visualization tasks. The presented work also considers a number of particular issues of video recording of processes in isolated environments, determining the boundaries of objects in an image, analyzing and processing video data, forming and presenting a pattern of heat distribution in a three-dimensional object, based on data obtained as a result of a numerical experiment in accordance with the mathematical model of the process under study implemented by us. The article also demonstrates the results of combining calculated data on the geometry of the product, data obtained by analyzing video data from visual observation tools, with thermal distribution data. This approach makes it easier for technologists to analyze the production process, identify critical areas such as overheating and non-melting zones, and select technological parameters for the selective laser melting process. The results of using the created software platform in various production technologies are demonstrated.

 

Keywords: SLM, software platform, machine vision, optoelectronic devices.