Authoring Game-Based Adaptive Units of Learning with IMS Learning Design and <e-Adventure>

Burgos, D., Moreno-Ger, P., Sierra, J. L., Fernández Manjón, B., & Kooper, R. (2007). Authoring Game-Based Adaptive Units of Learning with IMS Learning Design and <e-Adventure>. International Journal of Learning Technology, 3(3), 252-268.Electronic games and simulations (eGames) are a valuable support for adaptive learning. This adaptation can be based on different inputs, such as the user´s performance, behaviour or cognitive load. Both adaptation and eGames can be modelled with IMS Learning Design or integrated from an external resource. In this article we show the relation between IMS Learning Design and the <e-Adventure> Project when it comes to authoring adaptive Units of Learning integrated with eGames. We first describe the challenges of this objective and the several different solutions on authoring and integration. We also describe the content-centered authoring approach in <e-Adventure>, and the need for a communication service with IMS LD that makes a bi-directional influence on the user’s adaptive learning experience. At the end, we describe a practical example that illustrates how an adaptive IMS LD Unit of Learning with an integrated <e-Adventure> eGame is developed.This paper is partially supported by the European projects TENCompetence (IST-TEL/2004-2.4.10, www.tencompetence.org) and ProLearn (IST 507310, www.prolearn-project.org), and the research group <e-Ucm> (www.e-ucm.es). The Education and Science Spanish Committee (projects MetaLearn TIN2004 08367 C02-02 and OdA Virtual TIN2005-08788-C04-01) and the Regional Government / Complutense University of Madrid (grant 4155/2005 and research group 910494) have also supported this work partially. Special thanks to Bruno Torijano Bueno for his participation in the creation and preliminary tests of the sample game

An architecture supporting the development of serious games for scenario-based training and its application to Advanced Life Support

The effectiveness of serious games for training has already been proved in several domains. A major obstacle to the mass adoption of serious games comes from the difficulties in their development, due to the lack of widely adopted architectures that could streamline their creation process. In this thesis we present an architecture supporting the development of serious games for scenario-based training, a serious games for medical training we developed exploiting the architecture and the results of a study about its effectivenes

Integrating serious games in adaptive hypermedia applications for personalised learning experiences

Game-based approaches to learning are increasingly recognized for their potential to stimulate intrinsic motivation amongst learners. While a range of examples of effective serious games exist, creating high-fidelity content with which to populate games is resource-intensive task. To reduce this resource requirement, research is increasingly exploring means to reuse and repurpose existing games. Education has proven a popular application area for Adaptive Hypermedia (AH), as adaptation can offer enriched learning experiences. Whilst content has mainly been in the form of rich text, various efforts have been made to integrate serious games into AH. However, there is little in the way of effective integrated authoring and user modeling support. This paper explores avenues for effectively integrating serious games into AH. In particular, we consider authoring and user modeling aspects in addition to integration into run-time adaptation engines, thereby enabling authors to create AH that includes an adaptive game, thus going beyond mere selection of a suitable game and towards an approach with the capability to adapt and respond to the needs of learners and educators

Integration of Motion Sensing intoMobile Learning Applications

The use of mobile devices in education has greatly increased during the last decade. At the same time, technology advances have opened new spaces and possibilities for the field of mobile-based education in the form of entertainment—where learners can achieve their learning goals whilst having fun. Games on mobile phones have also become an important part of education experienced by young people. With the advancement in technology, utilizing motion-sensors in mobile learning systems have started to evolve. Research indicates that the potential of using motion-sensors in game-based learning could achieve maximum benefits from mobile technology in game-based learning activities, as well as improving this form of e-learning entertainment technology. This paper discusses our ongoing research that aims to improve current learning mobile technologies by integrating a new innovative motion-sensing feature. These advancements are reviewed and evaluated for integration and use in a motion-sensing edutainment mobile application

A Serious Games Development Environment

Un ambiente per lo sviluppo di Serious Game

A Guiding Vision for Fluid Learning: The Future of Education and Training

Position paper by the Digital Media Collaboratory (DMC) of the IC² Institute at The University of Texas at Austin. The authors envision learning systems as a ubiquitous public utility and propose an architecture to accomplish it. The paper includes a description of DMC research activities in 2003.IC2 Institut

Explicit Feedback Within Game-based Training: Examining The Influence Of Source Modality Effects On Interaction

This research aims to enhance Simulation-Based Training (SBT) applications to support training events in the absence of live instruction. The overarching purpose is to explore available tools for integrating intelligent tutoring communications in game-based learning platforms and to examine theory-based techniques for delivering explicit feedback in such environments. The primary tool influencing the design of this research was the Generalized Intelligent Framework for Tutoring (GIFT), a modular domain-independent architecture that provides the tools and methods to author, deliver, and evaluate intelligent tutoring technologies within any training platform. Influenced by research surrounding Social Cognitive Theory and Cognitive Load Theory, the resulting experiment tested varying approaches for utilizing an Embodied Pedagogical Agent (EPA) to function as a tutor during interaction in a game-based environment. Conditions were authored to assess the tradeoffs between embedding an EPA directly in a game, embedding an EPA in GIFT’s browser-based Tutor-User Interface (TUI), or using audio prompts alone with no social grounding. The resulting data supports the application of using an EPA embedded in GIFT’s TUI to provide explicit feedback during a game-based learning event. Analyses revealed conditions with an EPA situated in the TUI to be as effective as embedding the agent directly in the game environment. This inference is based on evidence showing reliable differences across conditions on the metrics of performance and self-reported mental demand and feedback usefulness items. This research provides source modality tradeoffs linked to tactics for relaying training relevant explicit information to a user based on real-time performance in a game

Modeling Tutoring Knowledge

This is a preliminary version of the chapter, the final one can be accessed at http://www.springerlink.com/content/978-3-642-14362-5#section=784256&page=1&locus=29This chapter introduces the topic "modeling tutoring knowledge" in ITS research. Starting with its origin and with a characterization of tutoring, it proposes a general definition of tutoring, and a description of tutoring functions, variables, and interactions. The Interaction Hypothesis is presented and discussed, followed by the development of the tutorial component of ITSs, and their evaluation. New challenges are described, such as integrating the emotional states of the learner. Perspectives of opening the Tutoring Model and of equipping it with social intelligence are also presented

Herramientas educativas para facilitar la adopción de la ingeniería de lenguajes software entre los desarrolladores informáticos

Históricamente, la materia de construcción de compiladores y procesadores de lenguaje es considerada por los estudiantes de ingeniería en informática como una materia difícil. Esto es debido, por una parte, a la naturaleza formal de las herramientas de especificación y diseño utilizadas, y, por otra, a la aplicación adecuada de diferentes técnicas sistemáticas de desarrollo para obtener los procesadores finales a partir de sus especificaciones. En esta tesis se aborda esta problemática en el caso particular de las gramáticas de atributos como formalismo básico de especificación. La tesis aborda, primeramente la concepción de una estrategia para facilitar la comprensión de los aspectos básicos de las especificaciones basadas en gramáticas de atributos, así como el soporte software de dicha estrategia. La estrategia propone un enfoque dirigido por problemas, en los que el alumno debe emular el proceso de evaluación semántica sobre distintos supuestos de procesamiento de frases de acuerdo con gramáticas de atributos. Para soportar dicha estrategia, se ha desarrollado un sistema denominado Evaluators, que, tomando como entrada baterías de ejercicios sobre evaluación semántica, produce automáticamente simuladores interactivos que los estudiantes pueden utilizar para resolver dichos ejercicios. El sistema proporciona, así mismo, una herramienta de autoría, que puede ser utilizada por los docentes para proporcionar los ejercicios, así como una herramienta de análisis, que permite trazar el comportamiento de los estudiantes durante la resolución de los mismos en los simuladores generados. Respecto a dichos simuladores, la herramienta es capaz de generar simulaciones de dos tipos: simuladores basados en juegos serios, y simulaciones interactivas basadas en las representaciones abstractas convencionales utilizadas en la materia. La tesis presenta, así mismo, diversos resultados de evaluación de la herramienta, tanto con estudiantes como con docentes, que evidencian la utilidad práctica de la misma. Por último, la tesis abstrae también el modelo de proceso utilizado en la construcción de la misma..

Supporting CS1 Instructors: Design and Evaluation of a Game Generator

Serious games have shown much promise in education, including in the teaching of programming. However, instructors who teach introductory programming often do not have the specialised skills to create serious games. One way to address this problem is to use domain-specific game generators to create customised games as needed. This paper presents the design and empirical evaluation of a prototype game generator tool - the Recursive Game Generator. 30 programming instructors evaluated the tool and found it useful (87%), easy to use and learn (80%); and were satisfied with the tools effectiveness and efficiency. Their positive experiences suggest that such a higher-order tool has the potential to increase the adoption of serious games in programming education, and broadly meet the needs of a diverse audience of instructors