Modelo para la integración de procesos educativos en una aventura gráfica

  1. Medina-Medina, Nuria 1
  2. Paderewski, Patricia 1
  3. Padilla-Zea, Natalia 2
  4. López-Arcos, Rafael 1
  5. Gutierrez Vela, Francisco 1
  1. 1 Universidad de Granada
    info

    Universidad de Granada

    Granada, España

    ROR https://ror.org/04njjy449

  2. 2 Universidad Internacional de La Rioja
    info

    Universidad Internacional de La Rioja

    Logroño, España

    ROR https://ror.org/029gnnp81

Aldizkaria:
Campus Virtuales

ISSN: 2255-1514

Argitalpen urtea: 2018

Alea: 7

Zenbakia: 1

Orrialdeak: 33-50

Mota: Artikulua

Beste argitalpen batzuk: Campus Virtuales

Laburpena

La aventura gráfica es un género de videojuego que expone de forma controlada un conjunto de desafíos, requiriendo para su resolución capacidad exploratoria, de predicción y toma de decisiones. Laestructura dinámica de su fuerte componente narrativa favorece la motivación del lector/jugador a quien se le exige un papel muy activo y, en consecuencia, su utilidad educativa ha sido explotada casi desde sus orígenes.Con objeto de asistir el uso educativo de la aventura gráfica dentro de un enfoque basado en competencias, se define un modelo conceptual que estructura los elementos de la aventura en torno a cinco componentes: competencias educativas, narrativa, retos, proceso de juego y proceso educativo. Como caso de uso, la aventura gráfica “Urano” instancia dicho modelo, permitiendo soportar y evaluar lalectura comprensiva en alumnos de segundo y tercer ciclo de primaria de acuerdo al sistema educativo español. De este modo, a medida que el jugador resuelve retos lúdicos, la aventura “Urano” gestiona la adquisición de las competencias educativas implicadas y genera informes de evaluación cuya utilidad educativa está siendo analizada, junto a otros aspectos, en una experiencia en la que participan varios colegios de la ciudad de Granada, y algunos de cuyos resultados preliminares se discuten en este trabajo.   

Erreferentzia bibliografikoak

  • Aarseth, E. J. (1997). Cybertext: Perspectives on ergodic literature. JHU Press.
  • Alshammari, S. H.; Ali, M. B.; Rosli, M. S. (2015). The effectiveness of video games in enhancing students’ learning. Res J Appl Sci, 10(8), 311-316. DOI: 10.3923/rjasci.2015.311.316
  • Amory, A. (2007). Game object model version II: a theoretical framework for educational game development. Educational Technology Research and Development, 55(1), 51-77. DOI: 10.1007/s11423-006-9001-x
  • Amory, A.; Naicker, K.; Vincent, J.; Adams, C. (1999). The use of computer games as an educational tool: identification of appropriate game types and game elements. British Journal of Educational Technology, 30(4), 311-321. DOI:10.1111/1467-8535.00121.
  • Baldeón, J.; Puig, A.; Rodríguez, I.; Muriel, C.; Zardain, L. (2017). A Conceptual Model for Educational Game Authoring: A Showcase in Math Games. In International Conference of Design, User Experience, and Usability (pp. 347-361). Springer, Cham. DOI: 10.1007/978-3-319-58637-3_2.
  • Carvalho, M. B.; Bellotti, F.; Berta, R.; De Gloria, A.; Sedano, C. I.; Hauge, J. B.; ... Rauterberg, M. (2015). An activity theory-based model for serious games analysis and conceptual design. Computers & education, 87, 166-181. DOI: 10.1016/j.compedu.2015.03.023
  • Cavallari, B.; Heldberg, J.; Harper, B. (1992). Adventure games in education: A review. Australasian Journal of Educational Technology, 8(2). DOI: 10.14742/ajet.2254
  • da Silva Chagas, J. (2016). Learning Foreign Languages through Mobile Game. Doctoral thesis.
  • Dailhou, P. (1985). Using adventure games. In What to do with what you got. Proceedings of 4th Annual Conference of NSW Computer Education Group. Broadway: Computer Education Group of New South Wales Ltd.
  • D'Apice, C.; Grieco, C.; Liscio, L.; Piscopo, R. (2015). Design of an Educational Adventure Game to teach computer security in the working environment. In DMS (pp. 179-185). DOI: 10.18293/DMS2015-002
  • de Lope, R. P.; Medina-Medina, N. (2016). Using UML to Model Educational Games. In Games and Virtual Worlds for Serious Applications (VS-Games), 2016 8th International Conference on (pp. 1-4). IEEE. DOI: 10.1109/VS-GAMES.2016.7590373
  • de Lope, R. P.; Arcos, J. R. L.; Medina-Medina, N.; Paderewski, P.; Gutiérrez-Vela, F. L. (2017). Design methodology for educational games based on graphical notations: Designing Urano. Entertainment Computing, 18, 1-14.
  • Degens, N.; Bril, I.; Braad, E. (2015). A Three-Dimensional Model for Educational Game Analysis & Design. Foundations of Digital Games.
  • Dempsey, J. V. (1994). Instructional Gaming: Implications for Instructional Technology. Meeting of the Association for Educational Communications and Technology, Nashville, TN.
  • Dickey, M. D. (2006). Game design narrative for learning: Appropriating adventure game design narrative devices and techniques for the design of interactive learning environments. Educational Technology Research and Development, 54(3), 245-263. DOI: 10.1007/s11423-006-8806-y
  • Dillon, T. (2004). Adventure games for learning and storytelling.
  • Eckert, M.; Gómez-Martinho, I.; Meneses, J.; Ortega, J. F. M. (2016). A modular middleware approach for exergaming. In Consumer Electronics-Berlin (ICCE-Berlin), 2016 IEEE 6th International Conference on (pp. 169-173). IEEE. DOI: 10.1109/ICCE-Berlin.2016.7684747
  • Fernández, A. (2008). Fun Experience with Digital Games: A Model Proposition. In Leino, O., Wirman, H. & Fernandez, A. (Eds.). Extending Experiences: Structure, Analysis and Design of Computer Game Player Experience (pp. 181-190). Lapland University Press.
  • Gee, J. P. (2003). What video games have to teach us about learning and literacy. Computers in Entertainment (CIE), 1(1), 20-20. DOI: 10.1145/950566.950595
  • Granic, I.; Lobel, A.; Engels, R. C. (2014). The benefits of playing video games. American Psychologist, 69(1), 66. DOI: 10.1037/a0034857
  • Hopper, S. (1989). Adventure Games. Miller Computer Education Centre, NSW Department of Education, Metropolitan South West Region.
  • Jenkins, H. (2004). Game design as narrative architecture. Computer, 44(3), 118-130.
  • Lyster, S. A. H. (2010). Reading comprehension-Unanswered questions and reading instructions challenges. Literacy and learning, advances in learning and behavioral disabilities, 23, 115-153.
  • Martínez-Olvera, W.; Esquivel-Gámez, I. (2017). Estrategias de lectura comprensiva del inglés para bachilleres, apoyadas en materiales multimedia. Campus Virtuales, 6(1), 9-22.
  • Medina-Medina, N.; Paderewski, P.; Padilla-Zea, N.; López-Arcos, J. R.; Gutiérrez, F. L. (2017). La aventura gráfica como instrumento para asistir la lecturacomprensiva. Proceedings of the 18th International Conference on Human Computer Interaction (pp. 21-26). Scientia et cognito, 1(1).
  • Núñez, M. P. (2015). Teaching materials for practicing metalinguistic abilities at 1st and 2nd level of Obligatory Secondary school. Developing reading comprehension in social sciences, history and geography texts. In Pinto, M. A. (ed.). Metalinguistic Excercises as Classroom Activities. Roma: Sapienza Università Edictrice.
  • Padilla-Zea, N.; Gutiérrez, F. L.; López-Arcos, J. R.; Abad-Arranz, A.; Paderewski, P. (2014). Modeling storytelling to be used in educational video games. Computers in Human Behavior, 31, 461-474. DOI: 10.1016/j.chb.2013.04.020
  • Padilla-Zea, N.; Medina-Medina, N.; Gutiérrez Vela, F. L.; Paderewski, P.; Collazos, C. A. (2017). PLAGER-VG: platform for managing educational multiplayer video games. Multimedia Tools Applications. DOI: 10.1007/s11042-017-4376-8
  • Padilla-Zea, N.; Vela, F. L. G.; López-Arcos, J. R.; Polo, J. R.; Medina, N. M.; Rodríguez, P. P.; Delgado, M. P. N. (2014). Implementation of continuous assessment in educational video games what, how and where to evaluate. In Computers in Education (SIIE), 2014 International Symposium on (pp. 163-168). IEEE. DOI: 10.1109/SIIE.2014.7017723
  • Papadimitriou, S.; Virvou, M. (2016). An online adventure game for teaching math. In Information, Intelligence, Systems & Applications (IISA), 2016 7th International Conference on (pp. 1-5). IEEE. DOI: 10.1109/IISA.2016.7785375
  • Pérez, L. D. C.; Miguelena, R.; Diallo, A. F. (2016). La efectividad de la formación en ambientes virtuales de aprendizaje en la educación superior. Campus Virtuales, 5(2), 10-17.
  • Perez-Colado, I.; Perez Colado, V.; Martínez-Ortiz, I.; Freire, M.; Fernández-Manjón, B. (2017). uAdventure: The eAdventure reboot. IEEE Global Engineering Education Conference (pp. 1754-1761). DOI: 10.1109/EDUCON.2017.7943087
  • Priego, R. G.; Peralta, A. G. (2016). ¿Cómo mejorar la calidad, la motivación y el compromiso estudiantil en la educación virtual?. Campus Virtuales, 5(1), 74-82.
  • Randel, J. M.; Morris, B. A.; Wetzel, C. D.; Whitehill, B. V. (1992). The effectiveness of games for educational purposes: A review of recent research. Simulation & gaming, 23(3), 261-276. DOI: 10.1177/1046878192233001
  • Robertson, J. (2012). Making games in the classroom: Benefits and gender concerns. Computers & Education, 59(2), 385-398. DOI: 10.1016/j.compedu.2011.12.020
  • Rodrigo, M. M.; Caluya, N. R.; Diy, W. D.; Vidal, E. C. E. (2015). Igpaw: Intramuros—Design of an Augmented Reality Game for Philippine History. In Proceedings of the 23rd International Conference on Computers in Education. DOI: 10.1007/9781461400646_4
  • Torrente, J.; Del Blanco, Á.; Marchiori, E. J.; Moreno-Ger, P.; Fernández-Manjón, B. (2010). : Introducing educational games in the learning process. In Education Engineering (EDUCON) (pp. 1121-1126). IEEE. DOI: 10.1109/EDUCON.2010.5493056
  • Vogler, C. (1998). The writer’s journey: Mythic structures for writers. Studio City, CA: Michael Wiese Productions.
  • White, D. S.; Le Cornu, A. (2011). Visitors and Residents: A new typology for online engagement. First Monday, 16(9). DOI: 10.5210/fm.v16i9.3171
  • Zagal, J. P.; Bruckman, A. (2008). The game ontology project: Supporting learning while contributing authentically to game studies. In Proceedings of the 8th international conference on International conference for the learning sciences-Volume 2 (pp. 499-506). International Society of the Learning Sciences.