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2017 | 8 | nr 4 | 64--73
Tytuł artykułu

Building virtual reality applications for engineering with knowledge-based approach

Autorzy
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents a novel methodology of building industrial Virtual Reality applications with use of a knowledge-based approach. Virtual Reality is becoming more and more widespread in engineering applications. However, most solutions are immediate and not flexible, especially in maintenance. Traditional way of programming VR applications makes all the knowledge about a product or a process hard-coded, effectively losing access to it from the outside of the programming software. Besides, making new solutions without any methodology whatsoever makes the process longer and less effective. The author proposes to use general rules of available Knowledge Engineering methodologies in order to make the process of building VR applications more effective and to ensure their flexibility and access to stored knowledge, even after an application is deployed. The presented methodology is supported with practical case studies. (original abstract)
Rocznik
Tom
8
Numer
Strony
64--73
Opis fizyczny
Twórcy
  • Poznan University of Technology, Poland
Bibliografia
  • Scherman W.R., Craig A.B., Understanding virtual reality: interface, application, and design, Morgan Kaufmann 2003.
  • Burdea G.C., Coiffet P., Virtual reality technology, John Wiley & Sons, Inc., 2003.
  • Bowman D.A., McMahan R.P., Virtual reality: how much immersion is enough?, Computer, 40, 7, 36-43, 2007.
  • Jezernik A., Hren G., A solution to integrate computer-aided design (CAD) and virtual reality (VR) databases in design and manufacturing processes, International Journal of Advanced Manufacturing Technology, 22, 11, 768-774, 2003.
  • Martin G., Wolfgang S., Ralph S., Kathrin B., Metamodel for VR-based design reviews, Proceedings of the International Conference on Engineering Design, ICED, 4, DS87-4, 337-346, 2017.
  • Colombo S., Nazir S., Manca D., Immersive virtual reality for training and decision making: preliminary results of experiments performed with a plant simulator, SPE Economics & Management, 6, 4, 2014.
  • Grajewski D., Górski F., Zawadzki P., Hamrol A., Application of virtual reality techniques in design of ergonomic manufacturing workplaces, Procedia Computer Science, 25, 289-301, 2013.
  • Mujber T.S., Szecsi T., Hashmi M.S.J., Virtual reality applications in manufacturing process simulation, Journal of Materials Processing Technology, 155, 1834-1838, 2004.
  • Jiang M., Virtual reality boosting automotive development, Virtual Reality & Augmented Reality in Industry, Springer Berlin Heidelberg, 171-180, 2011.
  • Buń P., Górski F., Wichniarek R., Kuczko W., Zawadzki P., Hamrol A., Application of professional and low-cost Head Mounted Devices in immersive educational application, Procedia Computer Science, 75, 173-181, 2015.
  • Escobar-Castillejos D., Noguez J., Neri L., Magana A., Benes B.. A review of simulators with haptic devices for medical training, Journal of Medical Systems, 40(4), 104, 2016, doi: 10.1007/s10916-016-0459-8.
  • Martíın-Gutiérrez J., Mora C.E, Añorbe-Díaz B., González-Marrero A., Virtual technologies trends in education, EURASIA Journal of Mathematics, Science and Technology Education, 13(2), 469-486, 2017.
  • Zawadzki P., Żywicki K., Smart product design and production control for effective mass customization in the Industry 4.0 concept, Management and Production Engineering Review, 7(3), 105-112, 2016.
  • Żywicki K., Zawadzki P., Górski F., Virtual reality production training system in the scope of intelligent factory, Advances in Intelligent Systems and Computing, Springer, 637, 450-458, 2018.
  • Ye J., Badiyani S., Raja V., Schlegel T., Applications of virtual reality in product design evaluation, HCI'07 Proceedings of the 12th International Conference on Human-Computer Interaction: Applications and Services, 4553 (Part 4), 1190-1199, 2007.
  • Abulrub A.H., Attridge A., Williams M.A., Virtual reality in engineering education: the future of creative learning, International Journal of Emerging Technologies in Learning, 6(4), 4-11, 2011.
  • Rogers S., Technical advances in the automotive industry, retrieved from: retail-focus.co.uk, 2016.
  • Górski F., Buń P., Wichniarek R., Zawadzki P., Hamrol A., Immersive city bus configuration system for marketing and sales education, Procedia Computer Science, 75, 137-146, 2015.
  • Yan M., Chen X., Zhou J., An interactive system for eficient 3D furniture arrangement, ACM International Conference Proceeding Series, Volume Part F128640, 27 June 2017, Article number a29.
  • Rodriguez J., Gutiérrez T., Sánchez E.J., Casado S., Aguinaga I., Training of procedural tasks through the use of virtual reality and direct aids, Virtual Reality and Environments, 2012.
  • Wan H., Gao S., Peng Q., Dai G., Zhang F., Mivas: a multi-modal immersive virtual assembly system, Proceedings of DETC'04, 2004.
  • Grajewski D., Górski F., Zawadzki P., Hamrol A., Immersive and haptic educational simulations of assembly workplace conditions, Procedia Computer Science, 75, 359-368, 2015.
  • Harley D., Tarun A.P., Germinario D., Mazalek A., Tangible VR: diegetic tangible objects for virtual reality narratives, DIS 2017 Conference Paper, pp. 1253-1263, 2017, doi: 10.1145/3064663.3064680.
  • Buń P., Górski F., Zawadzki P., Wichniarek R., Hamrol A., Selection of optimal software for immersive virtual reality application of city bus configurator, Advances in Intelligent Systems and Computing, 571, 480-489, 2017.
  • Develop3D.com, Review: VRED Pro 2017 & VR, retrieved from: http://www.develop3d.com/reviews/vred-pro-2017-vr-visualisation-design-rendering, 2017.
  • Tiwari V., Jain P.K., Tandon P., Design process automation KBE, Proceedings of the World Congress on Engineering, vol. II, 2013, retrieved from http://www.iaeng.org/publication/WCE2013/WCE2013_pp737-742.pdf.
  • Schreiber G., Knowledge engineering, [in:] Handbook of Knowledge Representation, Lifschitz V., van Harmelen F., Porter B. [Eds.], Elsevier Science, pp. 929-946, Amsterdam 2007.
  • Stokes M., Managing engineering knowledge: MOKA methodology for knowledge based engineering applications, Professional Engineering Publishing, London 2001.
  • Górski F., Bun P., Wichniarek R., Zawadzki P., Hamrol A., Effective design of educational virtual reality applications for medicine using knowledgeengineering techniques, EURASIA Journal of Mathematics, Science and Technology Education, 13, 2, 395-416, 2017.
  • Górski F., Zawadzki P., Hamrol A., Knowledge based engineering as a condition of effective mass production of configurable products by design automation, Journal of Machine Engineering, 16, 4, 5-30, 2016.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.ekon-element-000171518861

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