1. Home
  2. Archives
  3. Vol. 13 No. 2 (2017)
  4. Articles

APPLICATION OF THE AUGMENTED REALITY IN PRODUCTION PRACTICE

Dariusz PLINTA

dplinta@ath.bielsko.pl
University of Bielsko-Biala, Production Engineering Department, Willowa 2, 43-309 Bielsko-Biała (Poland)

Martin KRAJČOVIČ


University of Žilina, Industrial Engineering Department, Univerzitná 1, 010 26 Žilina, Slovak Republic, (Slovakia)


Abstract

Current requirements which are connected with designing new, or reali-zing the existing production systems, cause continuous and rapid changes in products and processes. This means that classical approaches of pro-duction systems design have to be extended by advanced technologies and methods, such as digital factory, virtual and augmented reality, computer simulation, reverse engineering, etc. The article describes new computer technologies, which were applied in production practice, with a particular focus on the augmented reality technology.


Keywords:

augmented reality, digital factory

Azuma, R.T. (1997). A Survey of Augmented Reality. Teleoperators and Virtual En-vironments, 6, 355–385.
DOI: https://doi.org/10.1162/pres.1997.6.4.355   Google Scholar

Bajana, J. (2013). Innovative presentation of information using augmented reality. In L. Dulina (Ed.), Advanced Industrial Engineering (pp. 155-170). Bielsko-Biala: FCNT.
  Google Scholar

Brzeziński, M. (2007). Wprowadzenie do nauki o przedsiębiorstwie. Warszawa: Difin. Dulina, Ľ., & Smutná, M. (2010). Methods and software support in industrial ergonomics. Zilina: Slovenská ergonomická spoločnosť (SES).
  Google Scholar

Furmann, R., & Krajčovič, M. (2009). Interactive 3D Design of Production Systems. In Digital Factory 2009 – Workshop Handbook. Zilina: SLCP.
  Google Scholar

Gabajová, G. (2013). Picking process using augmented reality. In L. Dulina (Ed.), Advanced Industrial Engineering (pp. 41–66). Bielsko-Biala: FCNT.
  Google Scholar

Gabajová, G., Krajčovič, M., & Plinta, D. (2013). Navigation with augmented reality. In InvEnt 2013 – modern technologies - way to higher productivity. Zilina: University of Zilina, EDIS.
  Google Scholar

Gregor, M., Medvecký, Š., Mičieta, B., Matuszek, J., & Hrčeková, A. (2007). Digital Factory. Zilina: KRUPA print.
  Google Scholar

Gregor, M., Plinta, D., Furman, R., & Štefánik, A. (2011). Digital factory – 3d laser scanning, modelling and simulation of production processes. In J. Matuszek, M. Gregor,n & B. Mičieta (Eds.), Metody i techniki zarządzania w inżynierii produkcji (pp.39-50). Bielsko-Biała: Wydawnictwo Akademii Techniczno-Humanistycznej.
  Google Scholar

Haas, W. (2004). AK-Digitale Fabrik. Bericht Roadmap. Ingolstadt: Audi.
  Google Scholar

Januszka, M. (2012). Projektowanie ergonomiczne z zastosowaniem technik poszerzonej rzeczywistości. In. XI Forum Inżynierskiego ProCAx, 2–4.10.2012.
  Google Scholar

Krajčovič, M. (2011). Projektovanie výrobných dispozícií s podporou rozšírenej reality. In Produktivita a inovácie (pp. 27–29). Zilina: University of Zilina.
  Google Scholar

Mirandová, G., & Gabaj, I. (2011). Use of augmented reality in storing and picking components from warehouse. In J. Matuszek, M. Gregor, & B. Mičieta (Eds.), Metody i techniki zarządzania w inżynierii produkcji. Bielsko-Biała: Wydawnictwo Akademii Techniczno-Humanistycznej.
  Google Scholar

Plinta, D., & Krajčovič, M. (2015). Production systems designing with the use of digital factory and augmented reality technologies. In R. Szewczyk, C. Zieliński, & M. Kaliczyńska (Eds.), Progress in automation, robotics and measuring techniques: control and automation (pp. 187–196). Cham, Heidelberg: Springer.
DOI: https://doi.org/10.1007/978-3-319-15796-2_19   Google Scholar

Štefánik, A., & Furmann, R. (2011). Computer simulation – aided designing of production and logistics systems. In: AI magazine - journal about the automotive industry, mechanical engineering and economics (pp. 46–47).
  Google Scholar

Westkaemper, E., Bischoff, J., Von Biel, R., & Duerr, M. (2001). Factory Digitalizing – An adapted approach to a digital factory planning in existing factories and buildings, Werkstattstechnik, 91.
  Google Scholar

Download


Published
2017-06-30

Cited by
Crossref
Scopus
Google Scholar
Europe PMC

PLINTA, D. ., & KRAJČOVIČ, M. (2017). APPLICATION OF THE AUGMENTED REALITY IN PRODUCTION PRACTICE. Applied Computer Science, 13(2), 5–14. https://doi.org/10.23743/acs-2017-09

Authors

Dariusz PLINTA 
dplinta@ath.bielsko.pl
University of Bielsko-Biala, Production Engineering Department, Willowa 2, 43-309 Bielsko-Biała Poland

Authors

Martin KRAJČOVIČ 

University of Žilina, Industrial Engineering Department, Univerzitná 1, 010 26 Žilina, Slovak Republic, Slovakia

Statistics

Abstract views: 59
PDF downloads: 5


License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

All articles published in Applied Computer Science are open-access and distributed under the terms of the Creative Commons Attribution 4.0 International License.


Similar Articles

1 2 > >> 

You may also start an advanced similarity search for this article.






Facebook Lublin University of Technology

Lublin University of Technology Publishing House

ul. Nadbystrzycka 36C/309D,
20-618 Lublin
tel. +48 81 538-46-59
email ph@pollub.pl

Copyright

Copyright 2019 by Lublin University of Technology
OJS Support and Customization by LIBCOM
Platform & workfow by OJS/PKP
Regulamin Platformy LUT PH
Regulations of the LUT PH e-Platform