Abstract
Computing machinery allows the creation of intelligent, personalized, adaptive systems and programs that consider the characteristics, interests, and needs of individual users and user groups. In the field of serious games, storytelling and gaming approaches are used as motivational instruments for suspenseful, engaging learning, or personalized training and healthcare. This chapter describes models and mechanisms for the development of personalized, adaptive serious games with a focus on digital educational games (DEG). First, the term adaptation is defined—both in general and in the context of games—and basic mechanisms such as the concept of flow are described. Then, player and learner models are analyzed for classification of player characteristics. For the control of serious games, adaptive storytelling and sequencing mechanisms are described. In particular, the concept of Narrative Game-based Learning Objects (NGLOBs) is presented, which considers the symbiosis of gaming, learning, and storytelling in the context of an adaptive DEG. Finally, the presented theoretical concepts, models, and mechanisms are discussed in the course of the 80Days project as a DEG best-practice example—which considers authoring, control, and evaluation aspects, and its practical implementation in 80Days using the authoring framework StoryTec.
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References
Abrantes SL, Gouveia LB (2011) Evaluating adoption of innovations of mobile devices and desktops within collaborative environments in a higher education context. Communications of the IBIMA, vol 2011. doi:10.5171/ 2011.341897
Aristotle 330 BC (1987) The Poetics of Aristotle, translation and commentary by Stephen Halliwell. Duckworth
Augustin T, Hockemeyer C, Kickmeier-Rust MD, Albert D (2011) Individualized skill assessment in digital learning games: basic definitions and mathematical formalism. IEEE Trans Learning Technol 4(2):138–148
Aylett, R (1999) Narrative in virtual environments—towards emergent narrative. In: AAAI symposium on narrative intelligence
Balet O (2007) INSCAPE: an authoring platform for interactive storytelling. In: Cavazza M, Donikian S (eds) Proceedings of the virtual storytelling. Using virtual reality technologies for storytelling. Springer, Berlin, pp 176–177
Bartle RA (1996) Hearts, clubs, diamonds, spades: players who suit MUDs. J MUD Research 1(1):19
Bellotti F, Berta R, De Gloria A, Primavera L (2009) Adaptive experience engine for serious games. IEEE Trans Comput Intell AI Games 1(4):264–280
Campbell J (2008) The hero with a thousand faces, 3 edn. New World Library
Carron T, Marty JC (2012) Enhancement of adaptation and monitoring in game-based learning environments. student usability in educational software and games: improving experiences, p 201
Cavazza M, Donikian S, Christie M, Spierling U, Szilas N, Vorderer P, Hartmann T, Klimmt C, André A, Champagnat R, Petta P, Olivier P (2008) The IRIS network of excellence: integrating research in interactive storytelling. Proceedings of interactive storytelling. Springer, Berlin, pp 14–19
Cavazza M, Champagnat R, Leonardi R (2009) The IRIS network of excellence: future directions in interactive storytelling. Proceedings of the interactive storytelling. Springer, Berlin, pp p8–13
Champagnat R, Delmas G, Augeraud M (2008) A storytelling model for educational games. In: Proceedings of the first international workshop on story-telling and educational games
Charles D, Black M (2004) Dynamic player modelling: a framework for player-centered digital games. In: Proceedings of the international conference on computer games: artificial intelligence, design and education, pp 29–35
Charles D, McNeill M, McAlister M, Black M, Moore A, Stringer K, Kücklich J, Kerr A (2005) Player-centred game design: player modelling and adaptive digital games. In: Proceedings of the digital games research conference, vol 285
Chen J (2007) Flow in games (and everything else). Commun ACM 50(4):31–34
Conlan O, O’Keeffe I, Hampson C, Heller J (2006) Using knowledge space theory to support learner modeling and personalization. In: Reeves T, Yamashita S (eds) Proceedings of the world conference on E-learning in corporate, government, healthcare, and higher education 2006. AACE, Chesapeake, VA, pp 1912–1919
Crawford C (2004) Chris crawford on interactive storytelling. New Riders Press
Cronbach LJ (1967) How can instruction be adapted to individual differences. Learning and individual differences, pp 23–39
Csikszentmihalyi M (1990) Flow: the psychology of optimal experience. Harper and Row, New York, NY
Doignon JP, Falmagne JC (1999b) Knowledge Spaces. Springer, Germany
Encarnação M (2009) On the future of serious games in science and industry. In: Proceedings of the CGames, pp 9–16
Fabricatore C (2000) Learning and videogames: an unexploited synergy. Unpublished manuscript
Fairclough CR, Cunningham P (2003) A multiplayer case-based story engine. In: 4th international conference intelligent games and simulation, EUROSIS
Field S (1988) The screenwriter’s workbook. Dell Publishing Company, New York
Figueiredo R, Brisson A, Aylett R, Paiva. (2008) Emergent stories facilitated: an architecture to generate stories using intelligent synthetic characters. In: Proceedings of the 1st international joint conf interactive digital storytelling 2008, LNCS, vol 5334. Springer, pp 218–229
Freytag G (1863) Die Technik des Dramas. Verlag: S. Hirzel, 1863. 310 Seiten
Fu D, Houlette R (2002) Putting AI in entertainment: an AI authoring tool for simulation and games. IEEE Intell Syst 17(4):81–84
Gee JP (2005) Learning by design: good video games as learning machines. E-Learning Digital Media 2(1):5–16
Göbel S, Malkewitz R, Becker F (2006) Story pacing in interactive storytelling. LNCS, vol 3942. Springer, p 419
Göbel S, Salvatore L, Konrad R (2008) StoryTec: a digital storytelling platform for the authoring and experiencing of interactive and non-linear stories. In: automated solutions for cross media content and multi-channel distribution, 2008. AXMEDIS’08. IEEE, pp 103–110
Göbel S, Mehm F, Radke S, Steinmetz R (2009) 80Days: adaptive digital storytelling for digital educational games. In: Proceedings of the 2nd international WS story-telling and educational games, vol 498, no 498
Göbel S, Wendel V, Ritter C, Steinmetz R (2010) Personalized, adaptive digital educational games using narrative game-based learning objects. Entertainment for education, digital techniques and systems. Springer, Berlin, pp 438–445
Göbel S, Mehm F, Wendel V (2012) Adaptive digital storytelling for digital educational games. In: Kickmeier-Rust MD, Albert D (eds) An alien’s guide to multi-adaptive educational computer games. Informing Science Press, Santa Rosa, pp 89–104. http://books.google.at/books/about/An_Alien_s_Guide_to_Multi_Adaptive_Educa.html
Grasbon D, Braun N (2001) A morphological approach to interactive storytelling. In Proceedings of the CAST01, living in mixed realities. Special issue of Netzspannung. Mag Media Product Inter-media Res 337–340
Heller J, Steiner C, Hockemeyer C, Albert D (2006) Competence-based knowledge structures for personalised learning. Int J E-Learning 5(1):75–88
Hendrikx M, Meijer S, Van Der Velden J, Iosup A (2013) Procedural content generation for games: a survey. ACM Trans Multimedia Comput Commun Appl 9(1):1
Hoffmann A, Göbel S, Schneider O, Iurgel I (2005) Storytelling-based edutainment applications. E-learning and virtual science centers, pp 190–214
Houlette R (2004) Player Modelling for Adaptive Games. AI Game Programming Wisdom II, pp 557–566
Kaukoranta T, Smed J, Hakonen H (2003) Understanding pattern recognition methods. AI Game Programming Wisdom 2:579–589
Kickmeier-Rust MD, Albert D (eds) (2012) An Alien’s guide to multi-adaptive educational computer games. Informing Science
Kickmeier-Rust MD, Albert D (2012c) Educationally adaptive: balancing serious games. Intl J Comput Sci Sport 11(1):15–28
Kickmeier-Rust MD, Albert D (2013) Using Hasse diagrams for competence-oriented learning analytics. In: Human-computer interaction and knowledge discovery in complex, unstructured, big data. Springer, pp 59–64
Korossy K (1999) Modeling knowledge as competence and performance. Knowledge spaces: Theories, empirical research, and applications, pp 103–132
Kriegel M, Aylett R (2008) Emergent narrative as a novel framework for massively collaborative authoring. Intelligent virtual agents. Springer, Berlin, pp 73–80
Law ELC, Mattheiss E, Kickmeier-Rust MD, Albert D (2010) Vicarious learning with a digital educational game: eye-tracking and survey-based evaluation. In: Leitner G, Hitz M, Holzinger A (eds) LNCS, vol 6389. Springer, Berlin, pp 471–488
Laws RD (2002) Robin’s laws of good game mastering. Steve Jackson Games
Lazzaro N (2004) Why we play games: four keys to more emotion without story, 2004. http://www.xeodesign.com/whyweplaygames/xeodesign_whyweplaygames.pdf. Accessed 06 Feb 2015
Lindley CA (2004) Narrative, game play and alternative time structures for virtual environments. In: Göbel et al (eds) Technologies for interactive digital storytelling and entertainment, LNCS, vol 3105. Springer
Louchart S, Swartjes I, Kriegel M, Aylett R (2008) Purposeful authoring for emergent narrative. In: Spierling U and Szilas N (eds) Proc ICIDS 2008. Springer LNCS, vol 5334, pp 273–284
Louchart S, Aylett R (2003) Solving the narrative paradox in VEs—lessons from RPGs. In: Rist T, Aylett, R and Ballin D (eds) Proceedings of the intelligent virtual agents, 4th Intl WS IVA2003, LNAI 2792. Springer, pp 244–248
Louchart S, Aylett RS (2004) Narrative theory and emergent interactive narrative. Int J Continuing Eng Educ Life-long Learning (special issue on narrative in education) 14(6):506–518
Machado I, Paiva A, Brna P (2001) Real characters in virtual stories—promoting interactive story creation activities. LNCS 2197:127–134
Mateas M, Stern A (2003) Façade: an experiment in building a fully-realized interactive drama. In: Game developers conference, game design track
Mateas M, Stern A (2007) Façade, an artificial intelligence-based art/research experiment in electronic narrative. http://www.interactivestory.net/. Accessed 5 Feb 2007
McKee R (1997) Substance, structure, style, and the principles of screenwriting. HarperCollins, New York
McKenna K, Lee S (2003) A love affair with MUDs: flow and social interaction in multi-user-dungeons. http://www.websm.org/uploadi/editor/McKenna_Sangchul_2004_MUDs_love_affair.doc. Accessed 06 Feb 2015
Mehm F, Göbel S, Radke S, Steinmetz R (2009) Authoring environment for story-based digital educational games. In: Proceedings of the 1st international open workshop on intelligent personalization and adaptation in digital educational games, vol 1, pp 113–124)
Mehm F, Wendel V, Göbel S.Steinmetz R (2010) Bat cave: a testing and evaluation platform for digital educational games. In: Proceedings of the 3rd European conference on games based learning, pp 251–260
Mehm F, Göbel S, Steinmetz R (2013) An authoring tool for educational adventure games: concept, game models and authoring processes. Intl J Game-Based Learning 3(1):63–79
Nandi A (2004) Frames: At the Edge and Beyond. In: Hagebolling H (ed) Interactive Dramaturgies: new approaches in multimedia content and design other information. Springer, Berlin
Propp V (2010) Morphology of the Folktale, vol 9. University of Texas Press
Riedl MO, Sugandh N (2008) Story planning with vignettes: toward overcoming the content production bottleneck. Interactive storytelling. Springer, Berlin, pp 168–179
Ryan ML (2008) Interactive narrative, plot types, and interpersonal relations. Interactive storytelling. Springer, Berlin, pp 6–13
Schwarz D, Oleggini L, Steiner CM, Stoecker M (2012) The 80Days game. Published in Kickmeier-Rust MD, Albert D (eds) (2012) An Alien’s guide to multi-adaptive educational computer games. Informing Science, pp 191–232
Schell J (2008) The art of game design: a book of lenses. Taylor & Francis US
Seger L (1997) Das Geheimnis guter Drehbücher. Alexander Verlag, Berlin
Smith AM, Lewis C, Hullet K, Sullivan A (2011a) An inclusive view of player modeling. In: Proceedings of the 6th international conference foundations of digital games. ACM, p 301–303
Smith AM, Lewis C, Hullett K, Smith G, Sullivan A (2011b) An inclusive taxonomy of player modeling. Technical report UCSC-SOE-11-13, University of California, Santa Cruz
Spronck P, Ponsen M, Sprinkhuizen-Kuyper I, Postma E (2006) Adaptive game AI with dynamic scripting. Mach Learn 63(3):217–248
Steinmetz R, Nahrstedt K (2004) Multimedia applications. Springer
Stern A (2008) Embracing the combinatorial explosion: a brief prescription for interactive story R&D. Interactive storytelling. Springer, Berlin, pp 1–5
Sweetser P, Wyeth P (2005) GameFlow: a model for evaluating player enjoyment in games. Comput Entertain (CIE) 3(3):1–24
Szilas N (2004) Stepping into the Interactive Drama. In: Göbel et al (eds) Technologies for interactive digital storytelling and entertainment, LNCS vol 3105. Springer
Tobias RB (1999) 20 Masterplots. Zweitausendeins, Frankfurt am Main
Trevino LK, Webster J (1992) Flow in computer-mediated communication electronic mail and voice mail evaluation and impacts. Commun Res 19(5):539–573
Torrente J, Moreno-Ger P, Fernandez-Manjon B (2008) Learning models for the integration of adaptive educational games in virtual learning environments. In: Pan Z, Zhang X, El Rhalibi A, Woo W, Li Y (eds) Technologies for E-learning and digital entertainment, LNCS, vol 5093. Springer, Berlin, pp 463–474
Vassileva D, Bontchev B (2009) Adaptation engine construction based on formal rules. In: Proceedings of the international conference on computer supported education (CSEDU)
Vogler C (1998) A Writer’s Journey. Mythic Structure for storytellers and Screenwriters. Wiese Productions, Studio City, California
Vorderer P, Hartmann T, Klimmt C (2003) Explaining the enjoyment of playing video games: the role of competition. In: Proceedings of the 2nd international conference entertainment computing, Carnegie Mellon University, pp 1–9
Westra J, van Hasselt H, Dignum F, Dignum V (2009) Adaptive serious games using agent organizations. Agents for games and simulations. Springer, Berlin, pp 206–220
Yannakakis GN, Maragoudakis M (2005) Player modeling impact on player’s entertainment in computer games. User Modeling 2005. Springer, Berlin, pp 74–78
Yee N (2006) Motivations for play in online games. CyberPsychol Behav 9(6):772–775
Zimmermann B (2008) Pattern-basierte Prozessbeschreibung und -unterstützung: Ein Werkzeug zur Unterstützung von Prozessen zur Anpassung von E-Learning- Materialien. PhD thesis, TU Darmstadt - Elektrotechnik und Informationstechnik - Multimedia Kommunikation
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Göbel, S., Wendel, V. (2016). Personalization and Adaptation. In: Dörner, R., Göbel, S., Effelsberg, W., Wiemeyer, J. (eds) Serious Games. Springer, Cham. https://doi.org/10.1007/978-3-319-40612-1_7
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