Fostering Openness and Accessibility of Music Archives through Multilayer Formats

Authors

  • Vanessa Faschi Laboratory of Music Informatics (LIM), Department of Computer Science, University of Milan
  • Federico Avanzini Laboratory of Music Informatics (LIM), Department of Computer Science, University of Milan
  • Luca Andrea Ludovico Laboratory of Music Informatics (LIM), Department of Computer Science, University of Milan

DOI:

https://doi.org/10.60923/issn.2532-8816/21759

Keywords:

Music, Archives, Collections, Accessibility, Usability, Inclusion, Multilayer formats, IEEE 1599

Abstract

This paper explores the critical intersection of openness and accessibility in the context of digital music archives, emphasizing the challenges posed by rare, fragile, and often handwritten materials. Building upon previous research, the study introduces multilayer representation formats, particularly the IEEE 1599 standard, as a viable solution to bridge gaps in usability, inclusivity, and interpretability for diverse user groups, including those with sensory, motor, and cognitive impairments. Through two case studies drawn from the Ricordi Historical Archive, the paper demonstrates how multilayer formats enable synchronized access to musical content across various modalities, including symbolic notation, audio, visual media, and metadata. The adaptability of these formats not only facilitates richer and more equitable access for scholars and the general public but also supports the design of assistive technologies and personalized interfaces. Ultimately, the work highlights the potential of multilayer approaches to transform music archives into inclusive, interactive spaces that preserve cultural heritage while democratizing engagement with music.

References

[1] Faschi, Vanessa, Federico Avanzini, and Luca Andrea Ludovico. 2025. Unlocking Music Archives: Openness and Accessibility. IRCDL 2025: 21st Conference on Information and Research Science Connecting to Digital and Library Science, February 20-21 2025, Udine, Italy 3937: 1–13.

[2] Dillon, Cy. (2014). The Virtues of Openness: Education, Science, and Scholarship in the Digital Age Michael A. Peters and Peter Roberts. portal: Libraries and the Academy. 14. 656-657. 10.1353/pla.2014.0024.

[3] Kulkarni, Mukta. (2018). Digital Accessibility: Challenges And Opportunities. IIMB Management Review. 31. 10.1016/j.iimb.2018.05.009.

[4] Andŕe Kilchenmann, Flavie Laurens, Lukas Rosenthaler, “Digitizing, archiving... and then? Ideas about the usability of a digital archive” in Proc. IS&T Archiving 2019, 2019, pp 146 - 150, https://doi.org/10.2352/issn.2168-3204.2019.1.0.34

[5] Nemer, David. (2015). From Digital Divide to Digital Inclusion and Beyond. The Journal of Community Informatics. 11. 10.15353/joci.v11i1.2857.

[6] K. Jones, Metadata, digital museum spaces and accessibility for persons with impairments, Pathfinder: A Canadian Journal for Information Science Students and Early Career Professionals 3 (2022) 111–115. URL: https://journals.library.ualberta.ca/www.pathfinderjournal.ca/index.php/pathfinder/article/view/58.

[7] S. Kawanaka, M. Kobayashi, H. Takagi, C. Asakawa, Accessibility commons: a metadata repository for web accessibility, SIGWEB Newsl. 2009 (2009). URL: https://doi.org/10.1145/1514984.1514985.

[8] Casario, M., Elst, P., Brown, C., Wormser, N., Hanquez, C. (2011). HTML5 Structural and Semantic Elements. In: HTML5 Solutions: Essential Techniques for HTML5 Developers. Apress. https://doi.org/10.1007/978-1-4302-3387-9_3

[9] J. Memon, M. Sami, R. A. Khan, M. Uddin, Handwritten optical character recognition (ocr): A comprehensive systematic literature review (slr), IEEE access 8 (2020) 142642–142668.

[10] G. Retsinas, G. Sfikas, B. Gatos, C. Nikou, Best practices for a handwritten text recognition system, in: International Workshop on Document Analysis Systems, Springer, 2022, pp. 247–259.

[11] A. Sai, K. S. S. Harshith, B. Ommi, G. Y. Kiran, A. T, Advanced handwritten text recognition for cursive writings with spelling correction module, in: 2023 IEEE 9th International Women in Engineering (WIE) Conference on Electrical and Computer Engineering (WIECON-ECE), IEEE, New York, 2023, pp. 1–6.

[12] J. Calvo-Zaragoza, J. C. Martinez-Sevilla, C. Penarrubia, A. Rios-Vila, Optical music recognition: Recent advances, current challenges, and future directions, in: International Conference on Document Analysis and Recognition, Springer, 2023, pp. 94–104.

[13] L. Tuggener, R. Emberger, A. Ghosh, P. Sager, Y. P. Satyawan, J. Montoya, S. Goldschagg, F. Seibold, U. Gut, P. Ackermann, et al., Real world music object recognition, Transactions of the International Society for Music Information Retrieval 7 (2024) 1–14.

[14] A. Ríos-Vila, J. Calvo-Zaragoza, T. Paquet, Sheet music transformer: End-to-end optical music recognition beyond monophonic transcription, 2024. arXiv:2402.07596.

[15] V. Danielson, Stating the obvious: lessons learned attempting access to archival audio collections, Folk heritage collections in crisis (2001) 4–14.

[16] S. Calamai, V. Ginouvès, P. M. Bertinetto, Sound Archives Accessibility, Springer International Publishing, Cham, 2016, pp. 37–54. URL: https://doi.org/10.1007/978-3-319-29544-2_3.

[17] A. Tovell, Audio preservation and access: Overcoming the challenges, in: Audio Engineering Society Conference: 2018 AES International Conference on Audio Archiving, Preservation & Restoration, P-8, Audio Engineering Society, 2018.

[18] J. W. Suter, B. R. Buckley, D. Carmicheal, J. Corsaro, E. McHale, S. O’Brien, K. Roe, F. J. Stielow, Working with Folk Materials in New York State: A Manual for Folklorists and Archivists, New York Folklore Society, 1994.

[19] S.-A. Zimmermann, Modified stave notation–an approach to making stave notation more accessible to users who are partially sighted, in: Computers Helping People with Special Needs: 9th International Conference, ICCHP 2004, Paris, France, July 7-9, 2004. Proceedings 9, Springer, Berlin, 2004, pp. 236–239.

[20] H.-Y. Park, How useful is braille music?: A critical review, International Journal of Disability, Development and Education 62 (2015) 303–318.

[21] Haus, Goffredo, and Maurizio Longari. 2005. “A Multi-Layered, Time-Based Music Description Approach Based on XML.” Computer Music Journal 29 (1): 70–85. https://doi.org/10.1162/comj.2005.29.1.70

[22] A. Baratè, G. Haus, L.A. Ludovico, A Critical Review of the IEEE 1599 Standard, Computer Standards & Interfaces 46 (2016) 46–51.

[23] Ludovico, Luca Andrea, Vanessa Faschi, Federico Avanzini, Emanuele Parravicini, and Manuele Maestri. 2025. “From Push Buttons to Notes: A Hardware/Software Ecosystem for Inclusive Music Education.” CSEDU 2025. Proceedings of the 17th International Conference on Computer Supported Education 1: 650–660. https://doi.org/10.5220/0013489300003932

Downloads

Published

2026-01-29

How to Cite

Faschi, V., Avanzini, F., & Ludovico, L. A. (2026). Fostering Openness and Accessibility of Music Archives through Multilayer Formats. Umanistica Digitale, 10(22), 25–43. https://doi.org/10.60923/issn.2532-8816/21759

Issue

No. 22 (2026): Special Issue. From Data to Heritage: Semantic Enrichment, Archives, and Digital Libraries

Section

Articles

License

Copyright (c) 2026 Vanessa Faschi, Federico Avanzini, Luca Andrea Ludovico

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.