Browsing by Author "Miljanovic, Michael A."

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    Adaptive serious games for computer science education
    (2020-10-01) Miljanovic, Michael A.; Bradbury, Jeremy
    Serious games have the potential to effectively engage students to learn, however, these games tend to struggle accommodating learners with diverse abilities and needs. Furthermore, customizing a serious game to the individual learner has historically required a great deal of effort on the part of subject matter experts, and is not always feasible for increasingly complex games. This thesis proposes the use of automatic methods to adapt serious programming games to learners' abilities. To understand the context of the problem, a survey was conducted of the serious programming game literature, which found that while many games exist, there has been very little consideration for the use of adaptation. Given the breadth of the existing serious programming game literature, a methodology was developed to support adaptation of existing games. To demonstrate the efficacy of this adaptive methodology in serious programming games, two case studies were conducted: 1) a study comparing adaptive and non-adaptive gameplay in the Gidget game, and 2) a study assessing non-adaptive gameplay, adaptive gameplay, and adaptive hints in the RoboBug game. The results from both case studies provide evidence to the need for adaptation in serious programming games, and illustrate how the adaptive methodology can be utilized to positively affect the engagement of learners and their ability to achieve learning outcomes.
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    RoboBUG: a game-based approach to learning debugging techniques
    (2015-03-01) Miljanovic, Michael A.; Bradbury, Jeremy
    Debugging is the systematic process of finding and fixing errors in a computer program, and it is considered a critical skill that should be acquired early in a programmer's career. As an alternative to traditional approaches for learning debugging, we propose the use of a game-based approach for introducing debugging techniques. Specifically, we designed a game called RoboBUG in which a player assumes the role of a futuristic programmer trying to find “bugs" in a mechanical suit. We then conducted an evaluation to assess novice programmers playing the RoboBUG game and novices who instead completed a traditional written assignment. Our results found that study participants reported a positive attitude towards using games for learning, and those who played the RoboBUG game believed it to be more fun and engaging than written assignments.