University of Technology Sydney

50819 Composing with Sound

Warning: The information on this page is indicative. The subject outline for a particular session, location and mode of offering is the authoritative source of all information about the subject for that offering. Required texts, recommended texts and references in particular are likely to change. Students will be provided with a subject outline once they enrol in the subject.

Subject handbook information prior to 2020 is available in the Archives.

UTS: Communication: MAP and Sound and Music Design
Credit points: 8 cp
Result type: Grade and marks

Requisite(s): 50817 Audio and Music Production
These requisites may not apply to students in certain courses.
There are course requisites for this subject. See access conditions.
Anti-requisite(s): 50843 Live Sound AND 50856 Live Sound

Description

This subject introduces the principles of sound creation and composition using electronic and digital processes. It provides a foundation for computational approaches to sound manipulation enabling students to explore innovative approaches to sound synthesis, interactive systems, algorithmic and data-driven sound composition. Issues and current practices at the intersection of art, music and sound design are investigated providing a context for students to develop their own creative sound works within the subject.

Subject learning objectives (SLOs)

a. Create novel sound compositions using dataflow programming
b. Apply computational approaches to creative audio practice
c. Relate technical and compositional concepts from historical and contemporary sound practice to new works
d. Design, plan, and realise digital music and sound design projects

Course intended learning outcomes (CILOs)

This subject engages with the following Course Intended Learning Outcomes (CILOs), which are tailored to the Graduate Attributes set for all graduates of the Faculty of Arts and Social Sciences:

  • Graduates possess a well-developed awareness of culture and professional practice of music and sound in the context of the technological and creative industries (1.1)
  • Graduates are able to present, explain and evaluate their own and others' work in independent and collaborative contexts (1.2)
  • Graduates possess reflective and analytical skills enabling them to synthesise ideas from a diverse range of sources and communicate effectively to different audiences using appropriate media and modes (6.1)
  • Graduates possess the technical and creative skills to express themselves in multi-platform contexts (6.2)

Teaching and learning strategies

The subject is delivered through a combination of lectures, lab-based tutorials and weekly online modules. Lectures will incorporate a range of teaching and learning strategies including short presentations, videos, demonstrations, discussion of readings and listening lists, case studies and student group work. Lab-based tutorials offer hands-on tuition in which students work in small teams to sequentially develop their own creative work and engage in group sound-making activities. Weekly online quizzes help students engage in online materials, maintain progress and offer opportunities for feedback on learning. Assessment tasks promote cumulative skills development, integration of sound design and composition theory, and refinement of the final composition. The subject focuses on the music programming platform Max (Cycling74).

Assessment

Assessment task 1: Online Quizzes

Objective(s):

a, b and c

Weight: 28%
Length:

7 x 4 question weekly quizzes
Criteria linkages:
Criteria Weight (%) SLOs CILOs
Number correct 100 a, b, c 1.1
SLOs: subject learning objectives
CILOs: course intended learning outcomes

Assessment task 2: Preliminary Instrument Design

Objective(s):

a, b, c and d

Weight: 27%
Length:

Single annotated Max patch file, 1 minute improvisation, 1 minute in-class discussion of sound morphology and synthesis method.
Criteria linkages:
Criteria Weight (%) SLOs CILOs
Presentation and useability of patch 25 a, b 6.2
Range of morphologies in improvisation 25 a, b, d 1.1
Clarity and technical accuracy of explanation 25 c 1.2
Preparation and rehearsal 25 d 1.2
SLOs: subject learning objectives
CILOs: course intended learning outcomes

Assessment task 3: Sound Composition

Objective(s):

a, b, c and d

Weight: 45%
Length:

3 minute composition (or demonstration for interactive systems) and associated patch file plus an individual 1000 word report.

Criteria linkages:
Criteria Weight (%) SLOs CILOs
Presentation, complexity and useability of patch (group mark) 20 a, b, d 6.2
Creativity and compositional coherence of presentation (group mark) 20 b, d 1.1
Technical quality of presentation (group mark) 10 d 1.2
Insight of written explanation and reasoning behind the compositional design, including use of academic and musical references (individual mark) 30 c, d 6.1
Clarity and accuracy of written expression (individual mark) 20 c, d 1.2
SLOs: subject learning objectives
CILOs: course intended learning outcomes

Minimum requirements

It is essential to attempt all assessment tasks to pass the subject as each assessment meets one or more subject learning objectives.

Recommended texts

It is recommended that students purchase a copy of Max 8. An Academic Annual Subscription license is available from Cycling '74 here:

https://cycling74.com/shop.

The following text is highly recommended:

Cipriani, A. & Giri, M. 2010, Electronic music and sound design: theory and practice with Max/MSP. Vol. 1, ConTempoNet, Rome.

References

Bandt, R. 2001, Sound Sculpture, Fine Art Publishing, Sydney. <http://find.lib.uts.edu.au/?R=OPAC_b1430650>

Blum, F. 2007, Digital interactive installations: programming interactive installations using the software package Max/MSP/Jitter, VDM Verlag Dr. Mueller, Saarbrucken, Germany.

Cobussen, M., Meelberg, V. & Truax, B. 2017, The Routledge companion to sounding art, Routledge, New York, NY. <http://find.lib.uts.edu.au/?R=OPAC_b3841773>

Cipriani, A. & Giri, M. 2016, Electronic music and sound design: theory and practice with Max/MSP. Vol. 1, 3rdEdn, ConTempoNet, Rome. <http://find.lib.uts.edu.au/?R=OPAC_b2586579>

Cipriani, A. & Giri, M. 2014, Electronic music and sound design : theory and practice with Max/MSP. Vol. 2, ConTempoNet, Rome.

d'Escrivan, J. & Collins, N. (eds) 2017, The Cambridge Companion to Electronic Music, Cambridge University Press Cambridge, UK. <(http://find.lib.uts.edu.au/?R=OPAC_b3624860)>

Dodge, C.J., T.A 1997, Computer Music, Synthesis, Composition and Performance, Schirmer Books 2nd Edition, New York.

Elsea, P. 2013, The Art and Technique of Electroacoustic Music, A-R Editions, Middleton WI. <http://find.lib.uts.edu.au/?R=OPAC_b3592376>

Emmerson, S. 2007, Living electronic music, Ashgate, Aldershot, Hants, England. <http://find.lib.uts.edu.au/?R=OPAC_b3536885>

Farnell, A. 2010, Designing sound, MIT Press, Cambridge, Mass. <http://find.lib.uts.edu.au/?R=OPAC_b3600801>

Licht, A. 2007, Sound Art: Beyond Music, Between Categories., HarCom Edition, Rizzoli.

Manzo, V.J. 2011, Max/MSP/Jitter for music: a practical guide to developing interactive music systems for education and more, Oxford University Press, New York. <http://find.lib.uts.edu.au/?R=OPAC_b2752819>

Miranda, E.R. 1998, Computer Sound Synthesis for the Electronic Musician, Butterworth-Heinemann, Oxford.

Miranda, E.R. 2001, Composing Music with Computers, Butterworth-Heinemann, Oxford. <http://find.lib.uts.edu.au/?R=OPAC_b3786788>

Miranda, E.R. & Biles, A. 2007, Evolutionary computer music, Springer, London.

Moore, F.R. 1990, Elements of computer music, Prentice Hall, Englewood Cliffs, N.J.

Puckette, M. 2007, The theory and technique of electronic music, World Scientific Publishing Co., Hackensack, NJ.

Puckette, M. 2002, 'Max at Seventeen', Computer Music Journal, vol. 26, no. 4,pp. 31 - 43.

Roads, C. (ed.) 1996, The Computer Music Tutorial 2nd Ed., The MIT Press, Massachusetts.

Roads, C. 2001, Microsound, MIT Press, Cambridge, Mass.

Roads, C. 2015, Composing electronic music a new aesthetic, Oxford University Press, Oxford.

Rowe, R. 2001, Machine Musicianship, The MIT Press, Massachusetts.

Smalley, D. 1996, 'The listening imagination: Listening in the electroacoustic era', Contemporary Music Review, vol. 13, no. 2,pp. 77-107.

Smalley, D. 1997, 'Spectromorphology: Explaining sound-shapes', Organised Sound, vol. 2, no. 2,pp. 107-26.

Smalley, D. 2007, 'Space-form and the acousmatic image', Organised Sound, vol. 12, no. 01,p. 35.

Taube, H. 2004, Notes from the metalevel: introduction to algorithmic music composition, Taylor & Francis Group, New York.

Winkler, T. 1998, Composing Interactive Music, Techniques and Ideas Using Max, The MIT Press, Massachusetts.

Schaeffer, P. 2017, Treatise on Musical Objects: An Essay across Disciplines, trans. C. North & J. Dack, University of California Press, Berkeley.

Winkler, T. 1998, Composing Interactive Music, Techniques and Ideas Using Max, The MIT Press, Massachusetts.

Wishart, T. 1996, On Sonic Art, Harwood Publishing, Philadelphia