Imaginary Reality Gaming: Ball Games Without a Ball

Patrick Baudisch; Henning Pohl; Stefanie Reinicke; Emilia Wittmers; Patrick Lühne; Marius Knaust; Sven Köhler; Patrick Schmidt; Christian Holz

doi:10.1145/2501988.2502012

Imaginary Reality Gaming: Ball Games Without a Ball

Patrick Baudisch, Henning Pohl, Stefanie Reinicke, Emilia Wittmers, Patrick Lühne, Marius Knaust, Sven Köhler, Patrick Schmidt, Christian Holz

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

39 Citations (Scopus)

Abstract

We present imaginary reality games, i.e., games that mimic the respective real world sport, such as basketball or soccer, except that there is no visible ball. The ball is virtual and players learn about its position only from watching each other act and a small amount of occasional auditory feedback, e.g., when a person is receiving the ball. Imaginary reality games maintain many of the properties of physical sports, such as unencumbered play, physical exertion, and immediate social interaction between players. At the same time, they allow introducing game elements from video games, such as power-ups, non-realistic physics, and player balancing. Most importantly, they create a new game dynamic around the notion of the invisible ball. To allow players to successfully interact with the invisible ball, we have created a physics engine that evaluates all plausible ball trajectories in parallel, allowing the game engine to select the trajectory that leads to the most enjoyable game play while still favoring skillful play.

Original language	Undefined/Unknown
Title of host publication	Proceedings of the 26th annual ACM Symposium on User Interface Software and Technology - UIST '13
Number of pages	6
Place of Publication	New York, New York, USA
Publisher	Association for Computing Machinery
Publication date	2013
Pages	405-410
ISBN (Print)	9781450322683
DOIs	https://doi.org/10.1145/2501988.2502012
Publication status	Published - 2013
Externally published	Yes

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Cite this

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title = "Imaginary Reality Gaming: Ball Games Without a Ball",

abstract = "We present imaginary reality games, i.e., games that mimic the respective real world sport, such as basketball or soccer, except that there is no visible ball. The ball is virtual and players learn about its position only from watching each other act and a small amount of occasional auditory feedback, e.g., when a person is receiving the ball. Imaginary reality games maintain many of the properties of physical sports, such as unencumbered play, physical exertion, and immediate social interaction between players. At the same time, they allow introducing game elements from video games, such as power-ups, non-realistic physics, and player balancing. Most importantly, they create a new game dynamic around the notion of the invisible ball. To allow players to successfully interact with the invisible ball, we have created a physics engine that evaluates all plausible ball trajectories in parallel, allowing the game engine to select the trajectory that leads to the most enjoyable game play while still favoring skillful play.",

keywords = "physical gaming, augmented reality gaming, imaginary interfaces, probabilistic, motion capture",

author = "Patrick Baudisch and Henning Pohl and Stefanie Reinicke and Emilia Wittmers and Patrick L{\"u}hne and Marius Knaust and Sven K{\"o}hler and Patrick Schmidt and Christian Holz",

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Baudisch, P, Pohl, H, Reinicke, S, Wittmers, E, Lühne, P, Knaust, M, Köhler, S, Schmidt, P & Holz, C 2013, Imaginary Reality Gaming: Ball Games Without a Ball. in Proceedings of the 26th annual ACM Symposium on User Interface Software and Technology - UIST '13. Association for Computing Machinery, New York, New York, USA, pp. 405-410. https://doi.org/10.1145/2501988.2502012

Imaginary Reality Gaming: Ball Games Without a Ball. / Baudisch, Patrick; Pohl, Henning; Reinicke, Stefanie et al.
Proceedings of the 26th annual ACM Symposium on User Interface Software and Technology - UIST '13. New York, New York, USA: Association for Computing Machinery, 2013. p. 405-410.

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

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AU - Pohl, Henning

AU - Reinicke, Stefanie

AU - Wittmers, Emilia

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AU - Köhler, Sven

AU - Schmidt, Patrick

AU - Holz, Christian

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AB - We present imaginary reality games, i.e., games that mimic the respective real world sport, such as basketball or soccer, except that there is no visible ball. The ball is virtual and players learn about its position only from watching each other act and a small amount of occasional auditory feedback, e.g., when a person is receiving the ball. Imaginary reality games maintain many of the properties of physical sports, such as unencumbered play, physical exertion, and immediate social interaction between players. At the same time, they allow introducing game elements from video games, such as power-ups, non-realistic physics, and player balancing. Most importantly, they create a new game dynamic around the notion of the invisible ball. To allow players to successfully interact with the invisible ball, we have created a physics engine that evaluates all plausible ball trajectories in parallel, allowing the game engine to select the trajectory that leads to the most enjoyable game play while still favoring skillful play.

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