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McCaleb, J. M. (2022). Chambering Music. The Chamber Musician in the Twenty-First Century, 21.Search in Google Scholar
Sætre, J. H., & Zhukov, K. (2021). Let’s play together: Teacher perspectives on collaborative chamber music instruction. Music Education Research, 23(5), 553-567.Search in Google Scholar
Barber-Kersovan, A., & Kirchberg, V. (2021). Free ensembles and small (chamber) orchestras as innovative drivers of classical music in Germany. In Innovation in Music (pp. 290-305). Focal Press.Search in Google Scholar
Scott, J. (2017). SMALL ENSEMBLES AS COMPONENTS OF PROFESSIONAL MUSIC CURRICULA. Journal of Performing Arts Leadership in Higher Education, 8, 4-11.Search in Google Scholar
Panton, L., Holloway, D., & Cabrera, D. (2017). Effect of a chamber orchestra on direct sound and early reflections for performers on stage: A boundary element method study. The Journal of the Acoustical Society of America, 141(4), 2461-2472.Search in Google Scholar
Han, X. (2022). Design of vocal music education system based on VR technology. Procedia Computer Science, 208, 5-11.Search in Google Scholar
Çamcı, A., & Granzow, J. (2019). Hyperreal instruments: Bridging VR and digital fabrication to facilitate new forms of musical expression. Leonardo Music Journal, 29, 14-18.Search in Google Scholar
Deacon, T., Stockman, T., & Barthet, M. (2017). User experience in an interactive music virtual reality system: an exploratory study. In Bridging People and Sound: 12th International Symposium, CMMR 2016, São Paulo, Brazil, July 5–8, 2016, Revised Selected Papers 12 (pp. 192-216). Springer International Publishing.Search in Google Scholar
Ruthmann, S. A., & Hebert, D. G. (2018). Music learning and new media in virtual and online environments. Creativities, technologies and media in music learning and teaching: an Oxford handbook of music education, 254-272.Search in Google Scholar
Green, B. (2023). Splendour XR: Place, experience and liveness at a virtual music festival. Leisure Sciences, 1-18.Search in Google Scholar
Rambarran, S. (2021). Virtual Music: Sound, Music, and Image in the Digital Era. Bloomsbury Publishing USA.Search in Google Scholar
Men, L., & Zhao, D. (2021, September). Designing privacy for collaborative music making in virtual reality. In Proceedings of the 16th International Audio Mostly Conference (pp. 93-100).Search in Google Scholar
Sra, M., Vijayaraghavan, P., Maes, P., & Roy, D. (2017). Deepspace: Mood-based image texture generation for virtual reality from music. In Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition Workshops (pp. 41-50).Search in Google Scholar
Ppali, S., Lalioti, V., Branch, B., Ang, C. S., Thomas, A. J., Wohl, B. S., & Covaci, A. (2022, April). Keep the VRhythm going: A musician-centred study investigating how Virtual Reality can support creative musical practice. In Proceedings of the 2022 CHI Conference on Human Factors in Computing Systems (pp. 1-19).Search in Google Scholar
Wang, S., & Yu, W. (2020). Space elements of computer music production based on VR technology. IEEE Access.Search in Google Scholar
Findlay-Walsh, I. (2021). Virtual auditory reality: inhabiting digital pop music as simulated space. Soundeffects, 10(1), 71-90.Search in Google Scholar
Sra, M., Maes, P., Vijayaraghavan, P., & Roy, D. (2017, November). Auris: creating affective virtual spaces from music. In Proceedings of the 23rd ACM symposium on virtual reality software and technology (pp. 1-11).Search in Google Scholar
Palumbo, M., Zonta, A., & Wakefield, G. (2020). Modular reality: Analogues of patching in immersive space. Journal of New Music Research, 49(1), 8-23.Search in Google Scholar
Weinel, J. (2019, September). Cyberdream VR: visualizing rave music and vaporwave in Virtual Reality. In Proceedings of the 14th International Audio Mostly Conference: A Journey in Sound (pp. 277-281).Search in Google Scholar
MacDonald, R., Burke, R., De Nora, T., Sappho Donohue, M., & Birrell, R. (2021). Our virtual tribe: sustaining and enhancing community via online music improvisation. Frontiers in Psychology, 11, 623640.Search in Google Scholar
Lennström David,Johnsson Roger,Agren Anders & Nykänen Arne. (2014). The Influence of the Acoustic Transfer Functions on the Estimated Interior Noise from an Electric Rear Axle Drive. SAE International Journal of Passenger Cars - Mechanical Systems(1),413-422.Search in Google Scholar
Li Dou Wu Haijun Yu Liang Jiang Weikang. (2018). An Inverse Patch Transfer Function Method Based on the Green’s Function in Free Field. INTER - NOISE and NOISE - CON Congress and Conference Proceedings(6),1891-1898.Search in Google Scholar
Liemert André & Kienle Alwin. (2012). Green’s function of the time-dependent radiative transport equation in terms of rotated spherical harmonics. Physical Review E(3).Search in Google Scholar
Wang Shuai & Zhang Jian-Dong. (2023). Hermitian operator of a Mach–Zehnder interferometer combined with parity detection and its applications. Optics Communications.Search in Google Scholar
