This study investigated the impact of new motion-based video game control systems on spatial presence, perceived reality, and enjoyment of video games. In two experiments, university students played video games on either new motion-based (Sony's Move, Microsoft's Kinect, and Nintendo's Wii), or standard video game systems (PS3 and XBOX 360 with gamepads). The results indicate that, in the context of golf, racing, and boxing games, the higher technological interactivity of motion-based systems (particularly Kinect) increases feelings of spatial presence, perceived reality, and enjoyment. Perceived reality predicted spatial presence; and spatial presence, in turn, was a significant predictor of enjoyment. Moving toward a more natural user interface (NUI) between the player and the game world can create a more immersive, realistic, and fun experience for the player. A new model for enjoyment of motion-based video games is proposed.
Affective disposition theory (ADT), which nicely explains enjoyment of traditional hero narratives, appears somewhat limited in its ability to explain antihero narratives, primarily because of the moral complexity of the protagonists. Recent work proposes that viewers over time develop story schema that permit antihero enjoyment, despite character immorality. This article reports results from three studies that support this claim. Specifically, the findings indicate that moral judgment may be less important to antihero enjoyment than ADT would predict, that previous exposure to an antihero narrative alters responses to similar narratives, and that moral disengagement cues impact the enjoyment process. Ultimately, the studies offer empirical evidence of how antihero narratives are enjoyed differently than their traditional hero counterparts.
Better technology does not affect the frequency or severity of cybersickness for players; but sensory conflict has a significant impact on how sick users become. Additionally, we present a model that indicates how enjoyment is produced in VR gaming experiences. These findings bear further investigation as new methods of interacting with VR games are developed.
In three experiments with U.S. undergraduates, effects of three levels of naturally mapped control interfaces were compared on a player's sense of presence, interactivity, realism, and enjoyment in video games. The three levels of naturally mapped control interfaces were: kinesic natural mapping (using the player's body as a game controller), incomplete tangible mapping (using a controller in a way similar to a real object), and realistic tangible mapping (using a controller or an object that directly relates to the real-life activity the game simulates). The results show that levels of interactivity, realism, spatial presence, and enjoyment were consistent across all conditions. However, when performing activities such as table tennis or lightsaber dueling with objects in-hand (incomplete tangible or realistic tangible conditions), perceived reality was a more important predictor of spatial presence. When performing the same activities with empty hands, interactivity emerged as the more important direct predictor of spatial presence. Control interface, therefore, matters greatly to the route by which cognitive processing of games takes place and how enjoyment is produced.
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