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Designing HTML5 2D platformer for web cam based motion gamesZiegenbein, Tim January 2015 (has links)
Movement interaction in games has over the last years been a main subject in the area of game design and recent motion based interaction systems provide many improvements over earlier systems. Research has proven that motion based games provide several benefits over general games, they increase the players’ engagement level and may induce both mental and physical health benefits. Still, not much research has been conducted in the area of motion based platform games, even though the platform game genre is one of the most popular game genres. In this thesis, a case study is conducted in order to extract design principles and guidelines applicable for motion based platform games. The study includes implementation of a browser-based 2D platform game that uses the web camera to provide motion based interaction. One of the conclusions in this study indicates that many game features from ordinary platform games only require minor modifications to be applicable for motion based platform games.
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Exploring the Possibilities of Split Testing on Motion-Based GamesBerggren, Martin January 2015 (has links)
Split testing is a popular practise to compare and evaluate design elements of web-sites. In this report, it is explored how split testing can be employed to test features of motion-based online games. This is done by applying theory taken from split testing of common web-pages and translating it to work with games. A pilot test is conducted on the newly developed game Phaseformer to evaluate two interaction techniques. With only 105 test participants, the results from the pilot test show with high statistical power that one variant provides the player with a higher level of control over the game than the other.
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SELF-IMAGE MULTIMEDIA TECHNOLOGIES FOR FEEDFORWARD OBSERVATIONAL LEARNINGUzuegbunam, Nkiruka M. A. 01 January 2018 (has links)
This dissertation investigates the development and use of self-images in augmented reality systems for learning and learning-based activities. This work focuses on self- modeling, a particular form of learning, actively employed in various settings for therapy or teaching. In particular, this work aims to develop novel multimedia systems to support the display and rendering of augmented self-images. It aims to use interactivity (via games) as a means of obtaining imagery for use in creating augmented self-images. Two multimedia systems are developed, discussed and analyzed. The proposed systems are validated in terms of their technical innovation and their clinical efficacy in delivering behavioral interventions for young children on the autism spectrum.
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