Abstract
Although music offers various functionalities in our contemporary urban life, the potential of making music with widely available computing technologies may not be well investigated. Ambient music is a category of music that focuses on the places where people are and puts an emphasis on tone and calmness over traditional musical structure or rhythm. This study reports on an initial effort to investigate ambient music’s potential by enhancing ambient music with ubiquitous computing technologies. We have developed a prototype system named DESI (distributed embedded sound information) to realize the potential of making ambient music interactive. DESI records stereophonic sound using a piano and visual markers and then pastes the sound on everyday objects like tables and chairs. The pasted sounds construct music according to their locations. Then, we investigate the possibilities and potential pitfalls through user studies.
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References
Chiba, K.: A world of dazzling VR acoustics. Sound & Recording Magazine, no. 11, pp. 20–23 (2016)
Collins, N., McLean, A., Rohrhuber, J., Ward, A.: Live coding in laptop performance. Organ. Sound 8(3), 321–330 (2003)
Eno, B.: Ambient music. In: Cox, C., Warner, D., (eds.) Audio Culture: Readings in Modern Music, pp. 94–96 (2004)
Hargreaves, D.J., North, A.C.: The functions of music in everyday life: redefining the social in music psychology. Psychol. Music 27(1), 71–83 (1999)
Ishizawa, F., Sakamoto, M., Nakajima, T.: Extracting intermediate-level design knowledge for speculating digital–physical hybrid alternate reality experiences. In: Multimedia Tools and Applications, 42 p. (2018)
Jordà, S., Geiger, G., Alonso, M., Kaltenbrunner, M.: The reacTable: exploring the synergy between live music performance and tabletop tangible interfaces. In: Proceedings of the 1st International Conference on Tangible and Embedded Interaction, pp. 139–146 (2007)
Morreale, F., De Angeli, A., Masu, R., Rota, P., Conci, N.: Collaborative creativity: the music room. Pers. Ubiquit. Comput. 18(5), 1187–1199 (2014)
Nakajima, T., Lehdonvirta, V.: Designing motivation using persuasive ambient mirrors. Pers. Ubiquit. Comput. 17(1), 107–126 (2013)
OtoComplete. https://www.youtube.com/watch?v=zWfGsEITpH8. Accessed 26 Dec 12 2017
Rentfrow, P.J.: The role of music in everyday life: current directions in the social psychology of music. Soc. Pers. Psychol. Compass 6(5), 406–412 (2012)
WaveDNA, Liquid Music. https://dirigent.jp/product/wavedna/liquid-music/. Accessed 26 Dec 12 2017
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Kinoshita, Y., Nakajima, T. (2019). Making Ambient Music Interactive Based on Ubiquitous Computing Technologies. In: Novais, P., et al. Ambient Intelligence – Software and Applications –, 9th International Symposium on Ambient Intelligence. ISAmI2018 2018. Advances in Intelligent Systems and Computing, vol 806. Springer, Cham. https://doi.org/10.1007/978-3-030-01746-0_23
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DOI: https://doi.org/10.1007/978-3-030-01746-0_23
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