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Understanding Interaction in Contemporary Digital Music: from instruments to behavioural objects

Published online by Cambridge University Press:  29 June 2009

Oliver Bown*
Affiliation:
Centre for Electronic Media Art, Monash University, Australia, 3800
Alice Eldridge
Affiliation:
Centre for Electronic Media Art, Monash University, Australia, 3800
Jon McCormack
Affiliation:
Centre for Electronic Media Art, Monash University, Australia, 3800

Abstract

Throughout the short history of interactive digital music, there have been frequent calls for a new language of interaction that incorporates and acknowledges the unique capabilities of the computational medium. In this paper we suggest that a conceptualisation of possible modes of performance–time interaction can only be sensibly approached in light of the ways that computers alter the social–artistic interactions that are precursive to performance. This conceptualisation hinges upon a consideration of the changing roles of composition, performer and instrument in contemporary practice. We introduce the term behavioural object to refer to software that has the capacity to act as the musical and social focus of interaction in digital systems. Whilst formative, this term points to a new framework for understanding the role of software in musical culture. We discuss the potential for behavioural objects to contribute actively to musical culture through two types of agency: performative agency and memetic agency.

Type
Articles
Copyright
Copyright © Cambridge University Press 2009

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References

Blackwell, T. Young, M. 2004. Swarm Granulator. Proceedings of The 2004 European Workshop on Evolutionary Music and Art, Coimbra, Portugal.CrossRefGoogle Scholar
Blackwell, T. Young, M. 2006. Live Algorithms for Music Manifesto. Available from http://www.timblackwell.com.Google Scholar
Bongers, B. 2006. Interactivation: Towards an e-cology of People, our Technological Environment, and the Arts. PhD thesis, Vrije Universiteit, Amsterdam, Holland.Google Scholar
Bowers, J. Villar, N. 2006. Creating Ad Hoc Instruments with pin&play&perform. Proceedings of the 2006 Conference of New Interfaces for Musical Expression, Paris. NIME.Google Scholar
Burton, J. 2008. Forester: Magical Sound Creation for Mac and PC. Available from http://leafcutterjohn.com.Google Scholar
Chadabe, J. 2002. The Limitations of Mapping as a Structural Descriptive in Electronic Instruments. Proceedings of the 2002 Conference on New Instruments for Musical Expression, Dublin, Ireland.Google Scholar
Dawkins, R. 1976. The Selfish Gene. Oxford: Oxford University Press.Google Scholar
Dennett, D. C. 1996. Darwin’s Dangerous Idea: Evolution and the Meanings of Life. London: Penguin.Google Scholar
Di Scipio, A. 2003. Sound is the Interface: From Interactive to Ecosystemic Signal Processing. Organised Sound 8(3): 269277.CrossRefGoogle Scholar
Kaltenbrunner, M., Jordà, S., Geiger, G. Alonso, M. 2006. The Reactable*: A Collaborative Musical Instrument. Proceedings of the Workshop on ‘Tangible Interaction in Collaborative Environments’ (TICE), at the15th International IEEE Workshops on Enabling Technologies (WETICE), Manchester, UK.CrossRefGoogle Scholar
Law, J. 1992. Notes on the Theory of the Actor Network: Ordering, Strategy and Heterogeneity. Available from http://www.lancs.ac.uk/fass/sociology/papers/law-notes-on-ant.pdf.CrossRefGoogle Scholar
Lewis, G. 2006. Improvising with Creative Machines. Talk given at Improvising with Computers, pre-NIME workshops. IRCAM, Paris.Google Scholar
Machover, T. Chung, J. 1989. Hyperinstruments: Musically Intelligent and Interactive Performance and Creativity Systems. Proceedings of the 1989 International Computer Music Conference. Columbus, USA.Google Scholar
Magnusson, T. 2007. The ixiQuarks: Merging Code and GUI in one Creative Space. Proceedings of the 2007 International Computer Music Conference, Copenhagen, Denmark.Google Scholar
Mumma, G. 1967. Creative Aspects of live Electronic Music Technology. Papers of 33rd National Convention, New York. Audio Engineering Society.Google Scholar
Paine, G. 2002. Interactivity, Where to from Here? Organised Sound 7(3): 295304.CrossRefGoogle Scholar
Rowe, R. 1992. Interactive Music Systems: Machine Listening and Composing. Cambridge, MA: MIT Press.Google Scholar
Schnell, N. Battier, M. 2002. Introducing Composed Instruments, Technical and Musicological Implications. Proceedings of the 2002 Conference on New Instruments for Musical Expression, Dublin, Ireland.Google Scholar
Schroeder, F. (ed.) 2006. Contemporary Music Review. Special Issue: Bodily Instruments and Instrumental Bodies 25(1/2).CrossRefGoogle Scholar
Sperber, D. 2007. Seedless Grapes: Nature and Culture. In E. Margolis and S. Laurence (eds.) Creations of the Mind: Theories of Artefacts and Their Representation. Oxford: Oxford University Press.Google Scholar
Waiswisz, M. 2008. Text and image archive for Michel Waisvisz. http://crackle.org/.Google Scholar
Waters, S. 2007. Performance Ecosystems: Ecological Approaches to Musical Interaction. Proceedings of EMS: The ‘Languages’ of Electroacoustic Music (EMS07), Leicester, UK.Google Scholar
Wessel, D. 2006. An Enactive Approach to Computer Music Performance. In Y. Orlarey (ed.) Le feedback dans la création musicale. Lyon: Studio Gramme, 9398.Google Scholar
Winkler, T. 2001. Composing Interactive Music: Techniques and Ideas Using Max. Cambridge, MA: MIT Press.Google Scholar