|
 ABSTRACT
Researching experiential phenomena is a challenging undertaking, given the sheer variety of experiences that are described by gamers and missing a formal taxonomy: flow, immersion, boredom, excitement, challenge, and fun. These informal terms require scientific explanation, which amounts to providing measurable criteria for different experiential states. This paper reports the results of an experimental psychophysiological study investigating different traits of gameplay experience using subjective and objective measures. Participants played three Half-Life 2 game modifications while being measured with electroencephalography, electrocardiography, electromyography, galvanic skin response and eye tracking equipment. In addition, questionnaire responses were collected after each play session. A level designed for combat-oriented flow experience demonstrated measurable high-arousal positive affect emotions. The positive correlation between subjective and objective indicators of gameplay experience shows the great potential of the method presented here for providing real-time emotional profiles of gameplay that may be correlated with self-reported subjective descriptions.
REFERENCES
Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.
| |
1
|
Half-Life 2 (Digital Game). Valve Corporation Seattle, WA, 2004.
|
| |
2
|
Appelman, R. Experiential Modes of Game Play. In Proceedings of the Situated Play, Proceedings of the DiGRA 2007 Conference (Tokyo, Japan. DiGRA, 2007), 815--822.
|
 |
3
|
|
| |
4
|
Cacioppo, J. T. Handbook of Psychophysiology. Cambridge University Press, 2007.
|
| |
5
|
Cacioppo, J. T., Tassinary, L. G. and Berntson, G. G. Psychophysiological Science. Handbook of psychophysiology (2000), 3--26.
|
| |
6
|
Cacioppo, J. T., Tassinary, L. G. and Berntson, G. G. Psychophysiological Science. Handbook of psychophysiology (2007), 3--26.
|
| |
7
|
Chen, J. Flow in Games. University of Southern California, Los Angeles, USA, 2006.
|
| |
8
|
Csikszentmihalyi, M. Beyond Boredom and Anxiety. Jossey-Bass Publishers, San Francisco, 1975.
|
| |
9
|
Csikszentmihalyi, M. Flow: The Psychology of Optimal Experience. HarperPerennial, New York, 1990.
|
| |
10
|
Ellis, G. D., Voelkl, J. E. and Morris, C. Measurement and Analysis Issues with Explanation of Variance in Daily Experience Using the Flow Model. Journal of Leisure Research, 26, 4 (1994), 337--356.
|
| |
11
|
Ermi, L. and Mäyrä, F. Fundamental Components of the Gameplay Experience: Analysing Immersion. In Proceedings of the DiGRA conference Changing views: worlds in play (Vancouver, Canada). DiGRA, 2005.
|
| |
12
|
Fisher, C. D. Boredom at Work: A Neglected Concept. Human Relations, 46 (1993), 395--417.
|
| |
13
|
Fridlund and Cacioppo Guidelines for Human Electromyographic Research. Psychophysiology, 23, 5 (1986), 567--589.
|
| |
14
|
|
| |
15
|
IJsselsteijn, W. A., Poels, K. and de Kort, Y. A. W. Measuring Player Experiences in Digital Games. Development of the Game Experience Questionnaire (GEQ). Manuscript in preparation.
|
| |
16
|
Jackson, S. A. and Marsh, H. W. Development and Validation of a Scale to Measure Optimal Experience: The Flow State Scale. Journal of Sport and Exercise Psychology, 18, 1 (1996), 17--35.
|
| |
17
|
Kivikangas, J. M. Psychophysiology of Flow Experience: An Explorative Study. University of Helsinki, Helsinki, Finland, 2006.
|
| |
18
|
Lang, P. J. The Emotion Probe. Studies of Motivation and Attention. American Psychologist, 50 (1995), 372--385.
|
| |
19
|
Lang, P. J., Greenwald, M. K., Bradley, M. M. and Hamm, A. O. Looking at Pictures: Affective, Facial, Visceral, and Behavioral Reactions. Psychophysiology, 30 (1993), 261--273.
|
| |
20
|
Lykken, D. T. and Venables, P. H. Direct Measurement of Skin Conductance: A Proposal for Standardization. Psychophysiology, 8, 5 (1971), 656--672.
|
| |
21
|
McMahan, A. Immersion, Engagement, and Presence: A New Method for Analyzing 3-D Video Games. Routledge, New York, 2003.
|
| |
22
|
Nacke, L. and Lindley, C. Boredom, Immersion, Flow - a Pilot Study Investigating Player Experience. In Proceedings of the IADIS Gaming 2008: Design for Engaging Experience and Social Interaction (Amsterdam, The Netherlands, July 25--27). IADIS Press, 2008, 103--107.
|
| |
23
|
|
| |
24
|
|
| |
25
|
Ravaja, N., Saari, T., Laarni, J., Kallinen, K., Salminen, M., Holopainen, J. and Järvinen, A. The Psychophysiology of Video Gaming: Phasic Emotional Responses to Game Events. In Proceedings of the DiGRA conference Changing views: worlds in play (Vancouver). Digital Games Research Association, 2005.
|
| |
26
|
Ravaja, N., Saari, T., Salminen, M., Laarni, J. and Kallinen, K. Phasic Emotional Reactions to Video Game Events: A Psychophysiological Investigation. MEDIA PSYCHOLOGY, 8, 4 (2006), 343--367.
|
| |
27
|
Ravaja, N., Turpeinen, M., Saari, T., Puttonen, S. and Keltikangas-Jarvinen, L. The Psychophysiology of James Bond: Phasic Emotional Responses to Violent Video Game Events. Emotion, 8, 1 (2008), 114--120.
|
| |
28
|
Salminen, M. and Ravaja, N. Increased Oscillatory Theta Activation Evoked by Violent Digital Game Events. Neuroscience Letters, 435, 1 (2008), 69--72.
|
| |
29
|
Vorderer, P., Wirth, W., Gouveia, F. R., Biocca, F., Saari, T., Jäncke, F., Böcking, S., Schramm, H., Gysbers, A., Hartmann, T., Klimmt, C., Laarni, J., Ravaja, N., Sacau, A., Baumgartner, T. and Jäncke, P. Mec Spatial Presence Questionnaire (MECSPQ): Short Documentation and Instructions for Application. IST-2001-37661, 2004.
|
|
Adobe Acrobat
QuickTime
Windows Media Player
Real Player
Pdf
K.8