The AIDLET Model: A Framework for Selecting Games, Simulations and Augmented Reality Environments in Mobile Learning

The AIDLET Model: A Framework for Selecting Games, Simulations and Augmented Reality Environments in Mobile Learning

José Bidarra (Universidade Aberta, Portugal), Meagan Rothschild (University of Wisconsin, USA), Kurt Squire (University of Wisconsin, USA) and Mauro Figueiredo (Universidade do Algarve, Portugal)
DOI: 10.4018/978-1-4666-6114-1.ch019
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Smartphones and other mobile devices like the iPhone, Android, Kindle Fire, and iPad have boosted educators' interest in using mobile media for education. Applications from games to augmented reality are thriving in research settings, and in some cases schools and universities, but relatively little is known about how such devices may be used for effective learning. This article discusses the selection and potential use of electronic games, simulations and augmented reality in mobile learning supported by an operational model called AIDLET. After analyzing the different approaches to the use of digital technology and games in education, and discussing their benefits and shortcomings, a framework was developed to facilitate the selection, repurposing, design and implementation of games, simulations and augmented reality, with focus on the practical aspects of the processes used in mobile learning. It is apparent that these devices for learning are valued by students and teachers alike, and that they may be used as personalized devices for amplifying learning, specifically through amplifying access to information, social networks, and ability to participate in the world. Furthermore, whereas traditional learning is based on knowledge memorization and the completion of carefully graded assignments, today, games, simulations and virtual environments turn out to be safe platforms for trial and error experimentation, i.e. learning by doing or playing. In this context, the AIDLET model was set out and verified against a taxonomy representing the main categories and genres of games, and the article concludes with implications for how teachers, instructional designers and technologists might best capitalize on the affordances of mobile devices when designing for blended learning and e-learning courses.
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The current model of pedagogy in conventional schools and universities is essentially teacher focused and one-way communication. It is set against evidence that shows how students learn more by collaborating with their teacher and with each other in the context of educational narratives (Pachler & Daly, 2009). Furthermore, evidence indicates that a new model of education is emerging, one that is student-centered, networked, customized and collaborative, leading to the creation of mechanisms through which infusion experiences and other rich learning contexts may support activity in novel situations (Shaffer, 2004). In addition, it is now recognized that student emotional expressions are a part of the learning process and also an essential component of basic education, a fact that continues to be a minor concern in schools and higher education. There is a growing body of evidence from the neurosciences and the cognitive sciences that recognizes the importance of emotions in cognitive processes and memory operations. The Portuguese born neuroscientist António Damásio developed a theory of emotion that has evolved from his first book, Descartes’ Error: Emotion, Reason and the Human Brain (1994), which explains how feelings are entangled in the cogitations of the brain and the circumstances of the body. In his second book, The Feeling of What Happens: Body and Emotion in the Making of Consciousness (1999), Damásio further explores the role of emotion. He attempts to connect the neurology of emotion to the neurology of consciousness and extends this to the existence of a sense of self.

In fact, freedom of choice, challenge, participation, transparency, integrity, collaboration, fun, speed, and innovation has become a part of students’ learning experiences. In this context, playing games may be an important aspect of learning as this generation’s game-playing experiences are more widespread than the game-playing experiences of previous generations. No doubt technology is transforming the ways we learn today but the most widely accepted theories and models behind learning are still valid. For instance, the pedagogical framework for implementing new software tools, games and simulations in the context of mobile learning can be developed by drawing on concepts from: constructivism (Bruner, 1966; Piaget, 1973), social constructivism (Vygotsky, 1978), situated cognition (Brown, Collins, & Duguid, 1989; Barab & Kirschner, 2001), and communities of practice (Wenger et al., 2002). Social constructivism in the Vygostkyan way provides a series of principles that may be accomplished during the development of educational activities. The Piagetan notion of constructivism is at the core and it basically means that students modify their current knowledge schemes to integrate new information and acquire new knowledge when in contact with teachers, peers and the surrounding environment. In addition, learning activities must be situated in authentic settings and in a context that is meaningful to each individual student, and may increase in effectiveness when students are part of community that shares values and contributes to a common objective. Constructivism, situated learning, and the establishment of communities of practice constitute a robust theoretical framework for knowledge acquisition based on the notion that learning occurs in the context of activities that typically involve a problem or task, other persons, and an environment or shared culture.

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