Background. Technology growth affords innovative teaching techniques as video gaming within education has increased in popularity. Motion-based video gaming (MBVG) is a type of gaming that requires the individual playing the game to be physically interactive. Thus, whatever movements the individual playing the game does is picked up by motion sensors and is mimicked via the on-screen character. MBVG provides constant feedback to learners and has been found to help motivate students, replace sedentary with active gaming, and can facilitate social interactions with peers.
Aim. This literature review reveals the current knowledge regarding the potential educational benefits of MBVG, particularly in physical education and sport pedagogy settings. Developments of video gaming in education as well as recent research regarding MBVG and its potential impact on physical skill development within educational environments are discussed.
Conclusion. MBVG may be beneficial with novices in teaching basic sport concepts or with individuals with special needs who might otherwise not be able to participate in the full authentic version of the sport. However, empirical evidence is lacking which supports the effective use of MBVG in accurately teaching authentic sport-specific motor skills.
The purpose of this study was to compare the similarities and differences of three common tennis strokes (i.e., forehand, backhand, and serve) performed by National Collegiate Athletic Association Division I tennis players in an authentic and motion-based video game (MBVG) environment. Moreover, through qualitative focus groups, the perceived effectiveness of using MBVGs as a pedagogical tool was also examined. Video and statistical analyses revealed several positives and negatives of utilizing MBVGs when teaching sports skills, particularly in reference to beginner and experienced tennis athletes. Implications of these findings for physical educators, sport coaches, and sport video game developers are discussed.
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