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Orchestra Machines, Old and New

Published online by Cambridge University Press:  31 July 2018

Jonathan De Souza
Jonathan De Souza*
Affiliation:
Don Wright Faculty of Music, Talbot College, Western University, 1151 Richmond St, London, ON N6A 3K7, Canada
*
*Email: [email protected]
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Abstract

What is ‘orchestral’ about a networked laptop orchestra? And what is network-like about a classical orchestra? This article juxtaposes orchestras, nineteenth-century music machines and twenty-first-century network music projects. Drawing on organology and cybernetics, it asks how these systems connect people and instruments. It considers interaction and coordination in particular networks, from the panharmonicon to PLork, but also their abstract informational topologies. Ultimately, orchestra machines, old and new, involve both technical and social organisation – and, as such, they can be used to problematise the ontological separation of technology and society.

Type
Articles
Information
Organised Sound , Volume 23 , Special Issue 2: New Wor(l)ds for Old Sounds , August 2018 , pp. 156 - 166
Copyright
© Cambridge University Press 2018 

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References

REFERENCES

Abbate, C. 1999. Outside Ravel’s Tomb. Journal of the American Musicological Society 52: 465530.Google Scholar
Ashby, W. R. 1956. An Introduction to Cybernetics. London: Chapman & Hall.Google Scholar
Barbosa, A. 2003. Displaced Soundscapes: A Survey of Network Systems for Music and Sonic Art Creation. Leonardo Music Journal 13: 5359.Google Scholar
Bates, E. 2012. The Social Life of Musical Instruments. Ethnomusicology 56: 363395.Google Scholar
Bateson, G. 1972. Steps to an Ecology of Mind. New York: Ballantine Books.Google Scholar
Birchfield, D., Lorig, D. and Phillips, K. 2005. Network Dynamics in Sustainable: A Robotic Sound Installation. Organised Sound 10: 267274.Google Scholar
Born, G. 2012. Music and the Social. In M. Clayton, T. Herbert and R. Middleton (eds.) The Cultural Study of Music: A Critical Introduction, 2nd edn. New York: Routledge.Google Scholar
Burtner, M., Kemper, S. and Topper, D. 2012. Network Socio-Synthesis and Emergence in NOMADS. Organised Sound 17: 4555.Google Scholar
Cage, J. 1979. Empty Words: Writings ’73–’78. Middletown, CT: Wesleyan University Press.Google Scholar
Cook, N. 2003. The Other Beethoven: Heroism, the Canon, and the Works of 1813–14. 19th-Century Music 27: 324.Google Scholar
Deleuze, G. and Guattari, F. 1987. A Thousand Plateaus: Capitalism and Schizophrenia. trans. B. Massumi. Minneapolis: University of Minnesota Press.Google Scholar
De Souza, J. 2017. Music at Hand: Instruments, Bodies, and Cognition. New York: Oxford University Press.Google Scholar
De Souza, J. forthcoming. Timbral Thievery: Synthesizers and Sonic Materiality. In A. Rehding and E. I. Dolan (eds.) The Oxford Handbook of Timbre. New York and Oxford: Oxford University Press.Google Scholar
Di Scipio, A. 2003. ‘Sound is the Interface’: From Interactive to Ecosystemic Signal Processing. Organised Sound 8: 269277.Google Scholar
Dolan, E. I. 2013. The Orchestral Revolution: Haydn and the Technologies of Timbre. Cambridge and New York: Cambridge University Press.Google Scholar
Harker, A., Atmadjaja, A., Bagust, J. and Field, A. 2008. Worldscape Laptop Orchestra. Proceedings of the International Computer Music Conference. Belfast: ICMA.Google Scholar
Hayles, N. K. 1999. How We Became Posthuman: Virtual Bodies in Cybernetics, Literature, and Informatics. Chicago and London: University of Chicago Press.Google Scholar
Heyde, H. 1975. Grundlagen des natürlichen Systems der Musikinstrumente. Leipzig: VEB Deutscher Verlag für Musik.Google Scholar
Heyde, H. 2001. Methods of Organology and Proportions in Brass Wind Instrument Making. Historic Brass Society Journal 13: 151.Google Scholar
Hornbostel, E. M. von and Sachs, C. 1914. Systematik Der Musikinstrumente: Ein Versuch. Zeitschrift Für Ethnologie 46: 553590.Google Scholar
Hornbostel, E. M. von and Sachs, C. 1961. Classification of Musical Instruments. The Galpin Society Journal 14: 329.Google Scholar
Kapur, A., Wang, G., Davidson, P. and Cook, P. R. 2005. Interactive Network Performance: A Dream Worth Dreaming? Organised Sound 10: 209219.Google Scholar
Kirsh, D. 2013. Embodied Cognition and the Magical Future of Interaction Design. ACM Transactions on Computer-Human Interaction 20: 3.Google Scholar
Latour, B. 1991. Technology is Society Made Durable. In J. Law (ed.) A Sociology of Monsters: Essays on Power, Technology, and Domination. London and New York: Routledge.Google Scholar
Latour, B. 2005. Reassembling the Social: An Introduction to Actor-Network-Theory. Oxford: Oxford University Press.Google Scholar
Loughridge, D. 2016. Haydn’s Sunrise, Beethoven’s Shadow: Audiovisual Culture and the Emergence of Musical Romanticism. Chicago: University of Chicago Press.Google Scholar
Mahillon, V.-C. 1874. Éléments d’acoustique musicale et instrumentale. Brussels: Mertens.Google Scholar
Mahillon, V.-C. 1893. Catalogue descriptif et analytique du Musée instrumental du Conservatoire royal de musique de Bruxelles, 2nd edn. Brussels: T. Lombaerts.Google Scholar
Makelberge, N. 2012. Rethinking Collaboration in Networked Music. Organised Sound 17: 2835.Google Scholar
Mathew, N. 2007. History Under Erasure: Wellingtons Sieg, the Congress of Vienna, and the Ruination of Beethoven’s Heroic Style. The Musical Quarterly 89: 1761.Google Scholar
Moseley, R. 2016. Keys to Play: Music as a Ludic Medium from Apollo to Nintendo. Oakland: University of California Press.Google Scholar
Ogborn, D. 2012. Composing for a Networked, Pulse-Based, Laptop Orchestra. Organised Sound 17: 5661.Google Scholar
Pickering, A. 2010. The Cybernetic Brain: Sketches of Another Future. Chicago: University of Chicago Press.Google Scholar
Rehding, A. 2016a. Instruments of Music Theory. Music Theory Online 22. http://mtosmt.org/issues/mto.16.22.4/mto.16.22.4.rehding.html (accessed 2 May 2018).Google Scholar
Rehding, A. 2016b. Three Music-Theory Lessons. Journal of the Royal Musical Association 141: 251282.Google Scholar
Riskin, J. 2003. The Defecating Duck, Or, The Ambiguous Origins of Artificial Life. Critical Inquiry 29: 599633.Google Scholar
Shannon, C. E. 1964. The Mathematical Theory of Communication. In C. E. Shannon and W. Weaver The Mathematical Theory of Communication. Urbana: University of Illinois Press.Google Scholar
Smallwood, S., Trueman, D., Cook, P. R. and Wang, G. 2008. Composing for Laptop Orchestra. Computer Music Journal 32: 925.Google Scholar
Stiegler, B. 2004. De la misère symbolique 1. L’époque hyperindustrielle. Paris: Editions Galilée.Google Scholar
Stiegler, B. 2009. Technics and Time 2: Disorientation. trans. S. Barker. Stanford: Stanford University Press.Google Scholar
Tresch, J. and Dolan, E. I. 2013. Toward a New Organology: Instruments of Music and Science. Osiris 28: 278298.Google Scholar
Vallis, O., Diakopoulos, D., Hochenbaum, J. and Kapur, A. 2012. Building on the Foundations of Network Music: Exploring Interaction Contexts and Shared Robotic Instruments. Organised Sound 17: 6272.Google Scholar
Voskuhl, A. 2013. Androids in the Enlightenment: Mechanics, Artisans, and Cultures of the Self. Chicago: University of Chicago Press.Google Scholar
Weinberg, G. 2005. Interconnected Musical Networks: Toward a Theoretical Framework. Computer Music Journal 29: 2339.Google Scholar
Wolf, R. 2012. Die Musikmaschinen von Kaufmann, Mälzel und Robertson: Eine Quellenedition . Munich: Deutsches Museum.Google Scholar
Young, J. P. 2001. Networked Music: Bridging Real and Virtual Space. Organised Sound 6: 107110.Google Scholar