Abstract
This work presents a model to produce user-oriented virtual reality scenarios, this type of scenario produced focuses on the user being able to be trained to drive unmanned vehicles (UAV) such as drones. The cost of drones and the costs associated with their operation (fuel, maintenance, training personnel, etc.) are much lower than those incurred by the operation of manned aircraft. Due to this, the adoption of the use of drones in different domains has increased, particularly in the industry. This brings with it a series of difficulties that must be considered when using these vehicles, such as the correct operation by the user. To face this perspective, a model is proposed to produce user-centered virtual reality scenarios. The design of tasks is considered as a fundamental part, the elements of the virtual reality environment, and the types of user interaction, with the aim of having the virtual reality scenarios according to the user’s needs. The main actor in this model are UAV pilots. The main objective of the model is that the user can be trained so that he can control a UAV through different user tasks. Finally, a virtual reality scenario is presented as an implementation of the model to initiate users in the flight of drones.
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Akanmu, S.A., Jamaludin, Z.: A user-centered design methodology for students ‘data-focused infovis. In: 2014 3rd International Conference on User Science and Engineering (i-USEr), pp. 115–118. IEEE (2014)
Cardenas, I.S., Letdara, C.N., Selle, B., Kim, J.H.: Immersifly: next generation of immersive pilot training. In: 2017 International Conference on Computational Science and Computational Intelligence (CSCI), pp. 1203–1206. IEEE (2017)
Cruz, J.A.F., Gallardo, P.C., Villarreal, E.A.: La realidad virtual, una tecnología innovadora aplicable al proceso de enseñanza de los estudiantes de Ingeniería. Aper-tura 6(2), 1–10 (2014)
Devy, N.P.I.R., Wibirama, S., Santosa, P.I.: Evaluating user experience of English learning interface using user experience questionnaire and system usability scale. In: 2017 1st International Conference on Informatics and Computational Sciences (ICICoS), pp. 101–106. IEEE (2017)
de España, G.: Plan estratégico para el desarrollo del sector civil de los dones en España 2018–2021 (2020). https://www.mitma.gob.es/el-ministerio/planes-estrategicos/drones-espania-2018-20215
Gigante, M.A.: Virtual reality: definitions, history and applications. In: Virtualreality Systems, pp. 3–14. Elsevier (1993)
GisandBeers.com: Documento del plan estratégico de drones (2018). http://www.gisandbeers.com/documento-del-plan-estrategico-de-drones/
Hartson, R., Pyla, P.S.: The UX Book: Process and Guidelines for Ensuring a Quality User Experience. Elsevier, Amsterdam (2012)
Himma, K.E., Tavani, H.T.: The Handbook of Information and Computer Ethics. Wiley, Hoboken (2008)
Jerald, J.: The VR Book: Human-Centered Design for Virtual Reality. Morgan & Claypool, San Rafael (2015)
Kharchenko, V., Kuzmenko, N., Kukush, A., Ostroumov, I.: Multi-parametric data recovery for unmanned aerial vehicle navigation system. In: 2016 4th International Conference on Methods and Systems of Navigation and Motion Control (MSNMC), pp. 295–299. IEEE (2016)
Kharchenko, V., Ostroumov, I.V.: Multiple-choice classification in air navigation system. In: Proceedings of the NAU2, pp. 5–9 (2008)
Lang, B., Batallé, J.: An introduction to positional tracking and degrees of freedom (DOF). Road to Virtual Reality (2018)
Lewis, J.R.: Measuring perceived usability: the CSUQ, SUS, and UMUX. Int. J. Hum.-Comput. Interact. 34(12), 1148–1156 (2018)
Li, J., Liying, F., Qing, X., Shi, Z., Yiliu, X.: Interface generation technology based on concur task tree. In: 2010 International Conference on Information, Networking and Automation (ICINA), vol. 2, pp. V2–350. IEEE (2010)
Liu, H., Bi, Z., Dai, J., Yu, Y., Shi, Y.: UAV simulation flight training system. In: 2018 International Conference on Virtual Reality and Visualization (ICVRV), pp. 150–151. IEEE (2018)
Martínez, F.P.: Presente y futuro de la tecnología de la realidad virtual. Creatividad y sociedad (2011)
Nguyen, V.T., Jung, K., Dang, T.: Dronevr: a web virtual reality simulator for drone operator. In: AIVR, pp. 257–262 (2019)
Otto, A., Agatz, N., Campbell, J., Golden, B., Pesch, E.: Optimization approaches for civil applications of unmanned aerial vehicles (UAVs) or aerial drones: a survey. Networks 72(4), 411–458 (2018)
Postal, G.R., Pavan, W., Rieder, R.: A virtual environment for drone pilot training using VR devices. In: 2016 XVIII Symposium on Virtual and Augmented Reality (SVR), pp. 183–187. IEEE (2016)
Rossana Vivas Bravo, E.S.C.R.: Proceso para la Evaluaci ́on de Aspectos Rela-cionados con la Experiencia de Usuario para Entornos Virtuales de Aprendizaje. Master’s thesis, Universidad San BuenaVentura Cali, Cali-Colombia (2013)
Salah, D.: A framework for the integration of user centered design and agile software development processes. In: Proceedings of the 33rd International Conference on Software Engineering, pp. 1132–1133 (2011)
Tamayo, J.L.R., Barrio, M.G.: Realidad virtual (hmd) e interacción desde la perspectiva de la construcción narrativa y la comunicación: propuesta taxon ́omica.Icono 1414(2), 12 (2016)
Walsh, T., Varsaluoma, J., Kujala, S., Nurkka, P., Petrie, H., Power, C.: Axe UX: exploring long-term user experience with iScale and AttrakDiff. In: Proceedings of the 18th International Academic Mindtrek Conference: Media Business, Management, Content & Services, pp. 32–39 (2014)
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Trujillo-Espinoza, C., Cardona-Reyes, H., Guzmán-Mendoza, J.E. (2021). Model Proposed for the Production of User-Oriented Virtual Reality Scenarios for Training in the Driving of Unmanned Vehicles. In: Mejia, J., Muñoz, M., Rocha, Á., Quiñonez, Y. (eds) New Perspectives in Software Engineering. CIMPS 2020. Advances in Intelligent Systems and Computing, vol 1297. Springer, Cham. https://doi.org/10.1007/978-3-030-63329-5_17
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