Abstract
The emerging of BIM (Building Information Modeling) techniques will change traditional procedures of design and maintenance for electric substations. In addition, Computational Holography, supported by wearable computers, has the potential to allow simultaneous engineering work, based on mixed reality and computer vision capabilities. It is believed that this set of tools will increase engineering design decisions. In this work, we propose a set of techniques to support a complete substation design, which is created by using BIM concepts that explore the Holographic world benefices. Experiments have shown that the coupling of these techniques has the potential to reduce the learning curve of the users, since it changes the way of collaboration among different professional specialists considering simulation intents.
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Okapuu-von Veh, A., et al.: Design and operation of a virtual reality operator-training system. IEEE Trans. Power Syst. 11(3), 1585–1591 (1996)
Quintana, J., Mendoza, E.: 3D virtual models applied in power substation projects. In: 15th International Conference on Intelligent System Applications to Power Systems, ISAP 2009, pp. 1–3 (2009)
Kirner, C., Kirner, T.: Evolução e Tendências da Realidade Virtual e da Realidade Aumentada. Pré-Simpósio de Realidade Virtual e Aumentada, Uberlândia (2011)
Roberts, G., Evans, A., Dodson, A., Denby, B., Cooper, S., Hollands, R.: The use of augmented reality, GPS and INS for subsurface data visualisation. In: Proceedings of the XXII International Congress of the FIT, Washington, D.C. (2002)
Substation design. http://substationdesignsuite.com
Microsoft Hololens. https://www.microsoft.com/microsoft-hololens/en-us
Vasconcellos, A.S., Hernandes, L.: Aplicação de Metodologia BIM no Projeto e Construção de Grandes Subestações. Seminario Nacional de Produção e transmissão de Energia Elétrica, Foz do Iguaçu, PR (2015)
The National BIM Standard: Frequently Asked Questions About the National BIM Standard-United States™. http://www.nationalbimstandard.org/faq.php#faq1
Cardoso, A., Lamounier, E.: A Realidade Virtual na Educação e Treinamento. In: Fundamentos e Tecnologia de Realidade Virtual e Aumentada. VIII Pré-Simpósio de Realidade Virtual e Aumentada, Belém, pp. 304–312 (2006)
Tori, R., Kirner, C.: Fundamentos de Realidade Aumentada. In: Fundamentos e Tecnologia de Realidade Virtual e Aumentada. VIII Pré-Simpósio de Realidade Virtual e Aumentada, Belém, pp. 2–21 (2006)
Behzadan, A.H., Iqbal, A., Kamat, V.R.: A collaborative augmented reality based modeling environment for construction engineering and management education. In: Proceedings of the Winter Simulation Conference, Winter Simulation Conference, pp. 3573–3581 (2011)
Buyuklieva, B., Kosicki, M.: BIM|MAR: assembling physical objects by virtual information. In: Proceedings of the 4th International Symposium on Pervasive Displays, pp. 257–258. ACM (2015)
Antonijevié, M.S., Keserica, H.: Augmented reality for substation automation by utilizing IEC 61850 communication. In: MIPRO 2016, 30 May–3 June 2016 (2016)
Oppermann, L., Shekow, M., Bicer, D.: Mobile cross-media visualisations made from building information modelling data. In: Proceedings of the 18th International Conference on Human-Computer Interaction with Mobile Devices and Services Adjunct, pp. 823–830. ACM (2016)
Liu, X., Xie, N., Jia, J.: WebVis_BIM: real time Web3D visualization of big BIM data. In: Proceedings of the 14th ACM SIGGRAPH International Conference on Virtual Reality Continuum and its Applications in Industry, pp. 43–50. ACM (2015)
Diez, H.V., Garca, S., Mujika, A., Moreno, A., Oyarzun, D.: Virtual training of fire wardens through immersive 3D environments. In: Proceedings of the 21st International Conference on Web3D Technology, pp. 43–50. ACM (2016)
Cardoso, A., Prado, P.R., Lima, G.F.M., Lamounier, E.: A virtual reality based approach to improve human performance and to minimize safety risks when operating power electric systems. In: Cetiner, S.M., Fechtelkotter, P., Legatt, M. (eds.) Advances in Human Factors in Energy: Oil, Gas, Nuclear and Electric Power Industries, pp. 171–182. Springer, Cham (2017)
Boyer, S.A.: SCADA: supervisory control and data acquisition. International Society of Automation (2009)
Keys, L.K., Rao, R., Balakrishnan, K.: Concurrent engineering for consumer, industrial products, and government systems. IEEE Trans. Compon. Hybrids Manuf. Technol. 15(3), 282–287 (1992)
Kurabayash, S., Ishiyama, H., Kanai, M.: Sensing-by-overlaying: a practical implementation of a multiplayer mixed-reality gaming system by integrating a dense point cloud and a real-time camera. In: IEEE International Symposium on Multimedia (2016)
Bille, R., Smith, S.P., Maund, K., Brewer, G.: Extending building information models into game engines. In: Proceedings of the 2014 Conference on Interactive Entertainment, pp. 22:1–22:8. ACM (2014)
Genty, A.: Virtual reality for the construction industry: the CALLISTO-SARI project, benefits for BOUYGUES CONSTRUCTION. In: Proceedings of the 2015 Virtual Reality International Conference, pp. 11:1–11:7. ACM (2015)
Hagedorn, B., Döllner, J.: High-level web service for 3D building information visualization and analysis. In: Proceedings of the 15th Annual ACM International Symposium on Advances in Geographic Information Systems, pp. 8:1–8:8. ACM (2007)
Moon, H.-S., Kim, H.-S., Moon, S.-Y., Kim, H.-W., Kang, L.-S.: Prototype model of wireless maintenance operation system for bridge facility using VR and ubiquitous technology. In: Proceedings of the 11th ACM SIGGRAPH International Conference on Virtual-Reality Continuum and its Applications in Industry, p. 350. ACM (2012)
Ock, J., Issa, R.R.A., Flood, I.: Smart building energy management systems (BEMS) simulation conceptual framework. In: Proceedings of the 2016 Winter Simulation Conference, pp. 3237–3245. IEEE Press (2016)
Azuma, R., et al.: Recent advances in augmented reality. IEEE Comput. Graph. Appl. 21(6), 34–47 (2001)
Acknowledgements
The authors would like to thank CEMIG GT411 Research and Development Program, along with CAPES (Coordination for the Improvement of Higher Education Personnel), for all their financial support given to this research project.
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Cardoso, A., do Santos Peres, I.C., Lamounier, E., Lima, G., Miranda, M., Moraes, I. (2018). Associating Holography Techniques with BIM Practices for Electrical Substation Design. In: Fechtelkotter, P., Legatt, M. (eds) Advances in Human Factors in Energy: Oil, Gas, Nuclear and Electric Power Industries. AHFE 2017. Advances in Intelligent Systems and Computing, vol 599. Springer, Cham. https://doi.org/10.1007/978-3-319-60204-2_5
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DOI: https://doi.org/10.1007/978-3-319-60204-2_5
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