Automatic Composition of Electroacoustic Art Music Utilizing Machine Listening

This article presents Autocousmatic, an algorithmic system that creates electroacoustic art music using machine-listening processes within the design cycle. After surveying previous projects in automated mixing and algorithmic composition, the design and implementation of the current system is outlined. An iterative, automatic effects processing system is coupled to machine-listening components, including the assessment of the “worthiness” of intermediate files to continue to a final mixing stage. Generation of the formal structure of output pieces utilizes models derived from a small corpus of exemplar electroacoustic music, and a dynamic time-warping similarity-measure technique drawn from music information retrieval is employed to decide between candidate final mixes. Evaluation of Autocousmatic has involved three main components: the entry of its output works into composition competitions, the public release of the software with an associated questionnaire and sound examples on SoundCloud, and direct feedback from three highly experienced electroacoustic composers. The article concludes with a discussion of the current status of the system, with regards to ideas from the computational creativity literature, among other sources, and suggestions for future work that may advance the compositional ability of the system beyond its current level and towards human-like expertise.

[1]  Leonard M. Isaacson,et al.  Experimental music: Composition with an electronic computer , 1979 .

[2]  Horacio Vaggione,et al.  The making of octuor , 1984 .

[3]  Curtis Roads,et al.  Composers and the Computer , 1986 .

[4]  M. Boden The creative mind : myths & mechanisms , 1991 .

[5]  M. Boden The Creative Mind , 1991 .

[6]  William A. Sethares,et al.  Consonance-Based Spectral Mappings , 1998 .

[7]  Robert Rowe,et al.  Machine Musicianship , 2001 .

[8]  John Fitch The Door Project , 2002 .

[9]  Guy J. Brown,et al.  A Qualitative Analysis of Composers at Work , 2002, ICMC.

[10]  Geraint A. Wiggins,et al.  Motivations and Methodologies for Automation of the Compositional Process , 2002 .

[11]  James McCartney,et al.  Rethinking the Computer Music Language: SuperCollider , 2002, Computer Music Journal.

[12]  John Young,et al.  Sound morphology and the articulation of structure in electroacoustic music , 2004, Organised Sound.

[13]  William Hsu Using Timbre in a Computer-Based Improvisation System , 2005, ICMC.

[14]  Mark B. Sandler,et al.  A tutorial on onset detection in music signals , 2005, IEEE Transactions on Speech and Audio Processing.

[15]  Anssi Klapuri,et al.  Signal Processing Methods for Music Transcription , 2006 .

[16]  Bob L. Sturm Adaptive Concatenative Sound Synthesis and Its Application to Micromontage Composition , 2006, Computer Music Journal.

[17]  D. Moffat,et al.  An investigation into people’s bias against computational creativity in music composition , 2006 .

[18]  Julio d'Escrivan,et al.  Cambridge Companion to Electronic Music , 2007 .

[19]  Scott J. Simon Computer models of musical creativity , 2007, J. Assoc. Inf. Sci. Technol..

[20]  Dan Stowell,et al.  Adaptive whitening for Improved Real-Time audio onset Detection , 2007, ICMC.

[21]  Joshua D. Reiss,et al.  AUTOMATIC MIXING: LIVE DOWNMIXING STEREO PANNER TEMPLATES FOR DAFX04, NAPLES, ITALY , 2007 .

[22]  Eduardo Miranda,et al.  Evolutionary Computer Music , 2007 .

[23]  Barry Eaglestone,et al.  Are Cognitive Styles an Important Factor in Design of Electroacoustic Music Software?† , 2007, ICMC.

[24]  Michael A. Casey Content-Based Music Information Retrieval , 2008 .

[25]  Simon Colton,et al.  Creativity Versus the Perception of Creativity in Computational Systems , 2008, AAAI Spring Symposium: Creative Intelligent Systems.

[26]  Marc Leman,et al.  Content-Based Music Information Retrieval: Current Directions and Future Challenges , 2008, Proceedings of the IEEE.

[27]  Christopher Ariza,et al.  The Interrogator as Critic: The Turing Test and the Evaluation of Generative Music Systems , 2009, Computer Music Journal.

[28]  Simon Colton,et al.  Computational Creativity: Coming of Age , 2009, AI Mag..

[29]  Tony Veale,et al.  Converging on the Divergent: The History (and Future) of the International Joint Workshops in Computational Creativity , 2009, AI Mag..

[30]  Wen Wu,et al.  Easy Does It: The Electro-Acoustic Music Analysis Toolbox , 2009, ISMIR.

[31]  Nick Collins,et al.  Musical Form and Algorithmic Composition , 2009 .

[32]  Mary Simoni,et al.  Barry Truax: Acoustic Communication and Compositional Techniques , 2010, Computer Music Journal.

[33]  Pierre Couprie Utilisation avancées du logiciel iAnalyse pour l'analyse musicale , 2010 .

[34]  Katharine Norman Conkers (listening out for organised experience) , 2010, Organised Sound.

[35]  Nick Collins,et al.  The SuperCollider Book , 2011 .

[36]  Simon Colton,et al.  On impact and evaluation in computational creativity: a discussion of the Turing Test and an alternative proposal , 2011 .

[37]  Nick Collins,et al.  SCMIR: A SuperCollider Music Information Retrieval Library , 2011, ICMC.

[38]  Stephen Travis Pope,et al.  Expert Mastering Assistant (EMA) Version 2.0 Technical Documentation , .