Abstract
With the drop in the price of Brain-Computer Interface (BCI) devices, which have been widely used in the medical sector, the development of serious BCI-based games has been accelerated. However, developers involved with the development of these games have found it difficult to acquire brain- and brain-wave-related knowledge. This paper defines templates that are necessary for developing BCI contents and proposes a method for developing BCI contents; the definition of the knowledge is based on templates. We present an example of a BCI-based game that has been developed using the proposed method. Since technical knowledge required for the development of serious games has been defined on the basis of templates, a developer can concentrate on the task of developing games.
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Neurosky. www.neurosky.com
Lubar JO, Lubar JF (1984) Electroencephalographic biofeedback of SMR and beta for treatment of attention deficit disorders in a clinical setting. Biofeedback Self Regul 9(1):1–23
Nijholt A, Oude BD, Reuderink B (2009) Turning shortcomings into challenges: brain-computer interfaces for games. Entertain Comput 1(2):85–94
Jeong J (2004) EEG dynamics in patients with Alzheimer’s disease. Clin Neurophysiol 115(7):1490–1505
Iturrate I, Antelis JM, Kübler A, Minguez J (2009) A non-invasive brain-actuated wheelchair based on a P300 neurophysiological protocol and automated navigation. IEEE Trans Rob 25(3):614–627
Miranda ER, Soucaret V (2008) Mix-it-yourself with a brain-computer music interface. In: Proceeding of 7th ICDVRAT with art abilitation
Bensch M et al (2007) Nessi: an eeg-controlled web browser for severely paralyzed patients. Computat Intell Neurosci 2007:1–5
Venthur B, Blankertz B (2008) A platform-independent open-source feedback framework for BCI systems, In: Proceedings of the 4th International Brain-Computer Interface Workshop and Training Course 2008, pp 385–389
Jiang D, Yin J (2009) Research of auxiliary game platform based on BCI technology. In: Proceedings of the Asia-Pacific conference on information processing, Vol 1. pp 424–428
Renard Y et al (2010) OpenViBE: an open-source software platform to design, test, and use brain-computer interfaces in real and virtual environment. Presence Teleoperations and Virtual Environments 19(1):35–53
Acknowledgments
This paper is presented by summarizing part of the research, “A Development of Serious Game Technology using Brain Computer Interface” that was supported by Korea Creative Content Agency (KOCCA) in the Culture Technology(CT) Research & Development Program 2009.
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Sung, Y., Cho, K., Um, K. (2013). A BCI Contents Development Method Based Templates. In: Kim, K., Chung, KY. (eds) IT Convergence and Security 2012. Lecture Notes in Electrical Engineering, vol 215. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-5860-5_99
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DOI: https://doi.org/10.1007/978-94-007-5860-5_99
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