Abstract
Twenty-first-century music technology now intersects many disciplines, including sound engineering, computing, interactive media, networked performance, composition, gaming, and the digital humanities. For colleges and universities thinking of offering new interdisciplinary music technology degrees, this landscape can be intimidating. What does “interdisciplinary” even mean? Students, faculty, and administrators all have different perspectives. So do educators in STEM, liberal and performing arts, and the humanities. Addressing such questions requires an inclusive culture that sees music and computing as complementary, forming a single discipline. Coming to an agreement on a list of technology and art competencies—a collaborative task many academic stakeholders are not used to—complicate the “degree identity” challenges. Once ascertained, that vision forms the basis of a new curricular model that shows how the program readies students to face employment. This chapter uses cognitive apprenticeship and situated learning as theoretical structures to establish and assess critical relationships between the music technology industry and higher education. It describes a holistic organization in which faculty, administration, and business partners adopt a common language to support the pedagogical mission of music technology programs in the twenty-first century. It reflects on theoretical aspects of decision-making that affect music technology pedagogy and curriculum. The chapter then offers suggestions on how to use a balanced approach in advancing theory, praxis, and collaboration between music technology and STEM-related disciplines in higher education.
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Notes
- 1.
Beyond the references cited in this chapter, readers should explore The Journal of Music Technology and Education, Music Educators Journal, the Journal on the Art of Record Production, the Journal of Popular Music Education, and the Journal of the Audio Engineering Society and associated AES E-Library for topical resources in music technology pedagogy. As more peer-reviewed outlets launch, readers can expect more audio-related content to study.
- 2.
Bielmeier (2013a) and Tough (2009) offer two fine dissertations to the audio education literature. Moreover, these respective studies are among the very few that provide empirical research investigating the vocational and pedagogical connections between the audio industry and higher education in the past decade. As of this writing, no formal postgraduate degree exists in this area in the United States. Thus, scholars interested in doctoral study in audio-focused pedagogy will frequently draw from Educational and Organizational Leadership, Curriculum and Instruction, Music Education, and related disciplines. Other scholars may explore training in postgraduate degrees that intersect with media, educational technology, interdisciplinary studies, STEM fields, and business.
- 3.
For more information regarding this course and the funded research behind it, please see Greher and Heines’ (2014) important book available from Oxford University Press and the companion website at https://teaching.cs.uml.edu/compthinkinsound/. This volume is extensive and offers detailed perspectives on interdisciplinary collaboration between CS and Music, the curricular implications of such courses (including syllabi and examples of student work), and the philosophical approaches both authors used in working together. It is a valuable resource, particularly for those interested in music technology, computing, education, and STEM + LA possibilities.
- 4.
Greher and Heines (2014) discuss the many administrative, logistical, fiscal, and promotion and tenure issues that CS and Music face when collaborating at an R1 institution.
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Acknowledgements
The author wishes to thank Dr. Jesse Heines, Dr. Christopher Lee, Dr. Elissa Johnson-Green, and Professor Kyle Snyder for their valuable comments and feedback on the early drafts of this manuscript.
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Walzer, D.A. (2017). The Curricular Soundtrack: Designing Interdisciplinary Music Technology Degrees Through Cognitive Apprenticeship and Situated Learning. In: Fee, S., Holland-Minkley, A., Lombardi, T. (eds) New Directions for Computing Education. Springer, Cham. https://doi.org/10.1007/978-3-319-54226-3_9
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