Abstract
This article offers the development of a realistic and intuitive virtual environment for training on pumping stations for drinking water supply systems. The environment has structures and equipment found in pumping stations that simplify the user interaction with the industrial process, instrumentation, monitoring and control of the station. The environment has been created using photogrammetry techniques, CAD tools and the UNITY 3D graphic engine that combined with MATLAB exchanges information in real time to execute the simulation of the process, achieving a high degree of realistic immersion. Experimental tests allow the operator to interact with the virtual environment and achieve maximum experience in the integrated station. Through experimental tests, the immersion of the training environment system is verified.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Stork, A., et al.: Enabling virtual assembly training in and beyond the automotive industry. In: 2012 18th International Conference on Virtual Systems and Multimedia (2012)
Carruth, D.: Virtual reality for education and workforce training. In: 2017 15th International Conference on Emerging eLearning Technologies and Applications (ICETA) (2017)
Galvan-Bobadilla, I., Ayala-Garcia, A., Rodriguez-Gallegos, E., Arroyo-Figueroa, G.: Virtual reality training system for the maintenance of underground lines in power distribution system. In: Third International Conference on Innovative Computing Technology (INTECH 2013) (2013)
Prasolova-Forland, E., Molka-Danielsen, J., Fominykh, M., Lamb, K.: Active learning modules for multi-professional emergency management training in virtual reality. In: 2017 IEEE 6th International Conference on Teaching, Assessment, and Learning for Engineering (TALE) (2017)
Wong, S., Yang, Z., Cao, N., Ho, W.: Applied RFID and virtual reality technology in professional training system for manufacturing. In: 2010 IEEE International Conference on Industrial Engineering and Engineering Management (2010)
Li, M., Li, L., Jiao, R., Xiao, H.: Virtrul reality and artificial intelligence support future training development. In: 2017 Chinese Automation Congress (CAC) (2017)
Rosero, M., Pogo, R., Pruna, E., Andaluz, V.H., Escobar, I.: Immersive environment for training on industrial emergencies. In: De Paolis, L.T., Bourdot, P. (eds.) AVR 2018. LNCS, vol. 10851, pp. 451–466. Springer, Cham (2018). https://doi.org/10.1007/978-3-319-95282-6_33
Bluemel, E., Hintze, A., Schulz, T., Schumann, M., Stuering, S.: Virtual environments for the training of maintenance and service tasks. In: Proceedings of the 2003 International Conference on Machine Learning and Cybernetics (2003)
Gomes de Sá, A., Zachmann, G.: Virtual reality as a tool for verification of assembly and maintenance processes. Comput. Graph. 23(3), 389–403 (1999)
Cai, L., Cen, M., Luo, Z., Li, H.: Modeling risk behaviors in virtual environment based on multi-agent. In: 2010 The 2nd International Conference on Computer and Automation Engineering (ICCAE) (2010)
Turner, C., Hutabarat, W., Oyekan, J., Tiwari, A.: Discrete event simulation and virtual reality use in industry: new opportunities and future trends. IEEE Trans. Hum.-Mach. Syst. 46(6), 882–894 (2016)
de Jong, T., Linn, M., Zacharia, Z.: Physical and virtual laboratories in science and engineering education. Science 340(6130), 305–308 (2013)
Fuyu, W., Guoming, C.: The virtual experiment system of sucker-rod pumping development and its application. In: 2010 International Conference on Computing, Control and Industrial Engineering (2010)
Gavish, N., et al.: Evaluating virtual reality and augmented reality training for industrial maintenance and assembly tasks. Interact. Learn. Environ. 23(6), 778–798 (2013)
Webel, S., Bockholt, U., Engelke, T., Gavish, N., Olbrich, M., Preusche, C.: An augmented reality training platform for assembly and maintenance skills. Robot. Auton. Syst. 61(4), 398–403 (2013)
Perez-Cisneros, M.A., Readman, M.: Control systems principles white papers library. Hamilton Institute at the National University of Ireland & TQ Equipment Ltd., Nottingham, U.K., pp. 18–26, Revistas Arbitradas (2005)
Izquieta, S.P.: Control de Tanques Acoplados (Tesis de pregado). Universidad Pública de Navarra, Pamplona (2011)
Shinskey, F.G.: Process Control Systems-Application. Design and Tuning. McGraw-Hill, New York (1996)
Sauro, J., Lewis, J.R.: When designing usability questionnaires, does it hurt to be positive In: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, pp. 2215–2224. ACM, May 2011
Author information
Authors and Affiliations
Corresponding authors
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Switzerland AG
About this paper
Cite this paper
Romo, J.E., Tipantasi, G.R., Andaluz, V.H., Sanchez, J.S. (2019). Virtual Training on Pumping Stations for Drinking Water Supply Systems. In: De Paolis, L., Bourdot, P. (eds) Augmented Reality, Virtual Reality, and Computer Graphics. AVR 2019. Lecture Notes in Computer Science(), vol 11614. Springer, Cham. https://doi.org/10.1007/978-3-030-25999-0_34
Download citation
DOI: https://doi.org/10.1007/978-3-030-25999-0_34
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-25998-3
Online ISBN: 978-3-030-25999-0
eBook Packages: Computer ScienceComputer Science (R0)