USE OF AUGMENTED REALITY TECHNOLOGIES IN SOFTWARE FOR INTERACTIVE VISUALIZATION OF THREE-DIMENSIONAL OBJECTS ON INDUSTRIAL SUBJECTS

Y. V. Ulianovska; T. M. Rudyanova; A. O. Oleshchuk; V. V. Kostenko; O. F. Bulhakova

doi:10.32836/2521-6643-2021-1-61.6

Y. V. Ulianovska Graduate degree and rank: Associate Professor, PhD. tehn. Sciences, Job: University of Customs and Finance, Ukraine, Dnipo, Position: The head of Department of Computer Science and Software Engineering Country: Ukraine City: Dnipro, Adress: Vernadskogo str., 2/4, Ukraine, 49000. https://orcid.org/0000-0001-5945-5251
T. M. Rudyanova Graduate degree and rank: Associate Professor, PhD in Physics and Mathematics Sciences, Job: University of Customs and Finance, Ukraine, Dnipro, Position: Associate Professor of Department of Computer Science and Software Engineering Country: Ukraine City: Dnipro, Adress: Vernadskogo str., 2/4, Ukraine, 49000. http://orcid.org/0000-0002-8685-4132
A. O. Oleshchuk Graduate degree and rank: master's degree, Computer Sciences. Job: Pandora game studio, Ukraine, Kyiv, Position: Тeam Lead Designer Country: Ukraine City: Kyiv, Adress: Street M. Golego, 29A, Kiev, Ukraine, 02000
V. V. Kostenko Graduate degree and rank: not have. Job: University of Customs and Finance, Ukraine, Dnipro, Position: senior instructor of Department of Computer Science and Software Engineering. Country: Ukraine. City: Dnipro. Adress: Vernadskogo str., 2/4, Ukraine, 49000. https://orcid.org/0000-0003-3847-2110
O. F. Bulhakova Graduate degree and rank: not have. Job: University of Customs and Finance, Ukraine, Dnipro, Position: senior instructor of Department of Computer Science and Software Engineering. Country: Ukraine. City: Dnipro. Adress: Vernadskogo str., 2/4, Ukraine, 49000. https://orcid.org/0000-0001-9834-2970

DOI: https://doi.org/10.32836/2521-6643-2021-1-61.6

Keywords: augmented reality; project; data types; computer graphics; software.

Abstract

The digital economy is an important vector of the National Economic Strategy of Ukraine. The digital economy opens new opportunities and incentives for various areas of domestic business, including the development of industrial enterprises. Among the modern available digital technologies, the article considers one of the most promising technologies – augmented reality. Interest in augmented reality is shown by industrial enterprises that invest in its development, which contributes to its spread and improvement. This paper investigates the methods of application of AR in industry. The software application with the technology of interactive visualization of three-dimensional objects is implemented in the work. objects by means of augmented reality in real time and on a real scale with the function of storing and transmitting scenes with objects in space to mass mobile devices for implementation in industrial enterprises. Thanks to the existing scientific achievements in this field, analysis and synthesis of publicly available scientific works, the authors formed the main provisions of augmented reality and considered the main elements of this process in the chosen field. The experimental part of the work was performed using a set of development tools for ArCore tracking.

A feature of the proposed system is the ability to create and manage a group of objects, presenting objects in real size and in real time for mass mobile devices. It was possible to change the parameters of augmented reality objects when visualized by entering a block of generalized parameters, which speeds up the interaction and includes the ability to change in real time and simplify the user interface. The mechanism and algorithm of manipulation of virtual three-dimensional objects in space with the use of input methods with the possibility of simultaneous movement and rotation, as well as the speed and stability of work and the technology of hiding objects are implemented.

A promising area of the study is the application of developed technologies in various industries.

References

Postanova vid 03 bereznya 2021 r. № 179 «Pro zatverdzhennya Nacion-alnoyi ekonomichnoyi strategiyi na period do 2030 roku». Rezhim dostupu: https://www.kmu.gov.ua/npas/pro-zatverdzhennya-nacionalnoyi-eko-a179.

Bottani E. Augmented reality technology in the manufacturing industry: A review of the last decade / E. Bottani, G. Vignali // IISE Transactions – Vol-ume 51, 2019 – P. 284-310.

Lebedenko S.O. Vikoristannya tehnologij dopovnenoyi realnosti v torgi-vli ta marketingu / S.O. Lebedenko // Efektivna ekonomika – №10, 2019.

Timoshenko A. Yak dopovnena realnist mozhe dopomogti malomu i serednomu biznesu. Rezhim dostupu: https://business.diia.gov.ua/cases/tehnologii/ak-dopovnena-realnist-moze-dopomogti-malomu-i-serednomu-biznesu

Mintij I.S. Dopovnena realnist: ukrayinska sogodennya. Biznes ta majbutnya osvita / I.S. Mintij // Pedagogika vishoyi ta serednoyi shkoli – Vip.51, 2019. – S. 290-296.

Kyivstar Reality. Elektronnij resurs. Rezhim dostupu: https://kyivstar.ua/ru/mm/entertainment/reality

SIMO AR - platforma dopovnenoyi realnosti. Elektronnij resurs. Rezhim dostupu: https://bit.ua/2017/11/ukrainskij-startap-dnya-simo-ar/

Schmiedingera T. Augmented reality as a tool for providing information content in different production domains / T. Schmiedingera, M. Petkea, L. Czettritza, B. Wohlschlagera, M. Adam // Procedia Manufacturing – Vol 45, 2020. – pp. 423-428. URL: https://doi.org/10.1016/j.promfg.2020.04.047

Bottani E. Wearable and interactive mixed reality solutions for fault di-agnosis and assistance in manufacturing systems: Implementation and testing in an aseptic bottling line / E. Bottani, , L. Nicoletti, A. Padovano, G. Paolo, C. Tancredi, L. Tebaldi, M. Vetrano, G. Vignali // Computers in Industry. – Volume 128, June 2021.

Wohlgemuth W. ARVIKA: augmented reality for development, pro-duction and service / W. Wohlgemuth, G. Triebfurst // In Proceedings of DARE 2000 on Designing augmented reality environments. – 2000. – pp.151–152.

Fite-Georgel P. Is there a reality in Industrial Augmented Reality? / P. Fite-Georgel // 10th IEEE International Symposium on Mixed and Augmented Reality. – 2011. – pp. 201–210.

Frund J. Using Augmented Reality Technology to Support the Automo-bile Development / J. Frund, J. Gausemeier, C. Matysczok, R. Radkowski // Com-puter Supported Cooperative Work in Design. – 2005. – pp. 289–298.

Wang X. Tangible mixed reality for remote design review: a study un-derstanding user perception and acceptance / X. Wang, Ph.S Dunston // Visualiza-tion in Engineering – Volume 1, 2013. URL: https://doi.org/10.1186/2213-7459-1-8

Park H. Tangible augmented prototyping of digital handheld products / H. Park, H. Moon, J. Lee // Computers in Industry. – 2009. – Vol. 60, №2. – pp. 114–125.

Uva A. Distributed design review using tangible augmented technical drawings / A. Uva, S. Cristiano, M. Fiorentino, G. Monno // Computer-Aided De-sign. – 2010. – Vol. 42, № 5. – pp. 364–372.

Gonizzi Barsanti S. 3D isualization of cultural heritage artefacts with virtual reality devices / S. Gonizzi Barsanti, G. Caruso, L.L. Micoli, M. Rodriguez Covarrubias, G. Guidi // International Archives of the Photogrammetry, Remote Sensing & Spatial Information Sciences – Vol. 40, 2015. – RR. 165-172.

Kaufmann H. Mathematics and geometry education with collaborative augmented reality / H. Kaufmann, D. Schmalstieg // Computers and Graphics. – 2003. – Vol. 27. – №3. – pp. 339–345. URL: http://citeseerx.ist.psu.edu/viewdoc/download?rep =rep1&type=pdf

Rempel W. First steps to control a digitalized factory via Augmented Reality / W. Rempel, B. Bauer, N.C. Stache, C. Wittenberg // IFAC-PapersOnLine – Vol.52, Issue 19. – pp. 1-6. URL: https://doi.org/10.1016/j.ifacol.2019.12.072

Dopovnena realnist i suchasni VR tehnologiyi: Rezhim dostupu: https://avada-media.ua/ua/services/vr-ar/.

Linowes J. Augmented Reality for Developers / J. Linowes, K. Babilin-ski – 1st edition, 2017. – 548 P.

Yakovenko V.O. Rozrobka programnogo modulya dlya 3d vizualizaciyi z elementami augmented reality dlya slabkih ta potuzhnih pristroyiv / V.O. Yako-venko, Yu.V. Ulyanovska, A.O. Oleshuk // Naukovi visti Dalivskogo universitetu. №16, 2019.

Yakovenko V.O. Rozrobka programnogo modulya dlya vizualizaciyi 3D-modelej / V.O. Yakovenko, Yu.V. Ulyanovska, A.O. Oleshuk // Suchasna nauka: problemi i perspektivi (chastina I): Materiali IV Mizhnarodnoyi naukovo-praktichnoyi konferenciyi – 6-7 zhovtnya 2018 roku. Kiyiv: MCND, 2018. S. 32.