Abstract
Designing a parameter mapping sonification (PMSon) involves defining a mapping function that determines how data variables affect audio signal parameters. The mapping function is represented using mathematical notation and/or characterized in terms of scaling, transfer function and polarity; both approaches manifest in software platforms for PMSon design. Math notation is not always directly relatable to complex design requirements, and
simple characterizations lack generality and may be ambiguous - both issues hamper mapping function design, conceptualization, and dissemination. We seek to address them through knowledge transfer from audio mixing, a mature craft with strong parallels
to PMSon design. For mixing, it was a versatile and universally applicable technological platform (the multitrack mixer) that supported the development of mixing technique, concepts, and recent formalizations thereof, laying the foundation for modern audio
production. We posit that a PMSon design platform that adapts the essential elements of the mixer can similarly reinforce PMSon by supporting a mapping function representation directly tied to the design process. We define the correspondence between mixing and PMSon design, outline specifics of mixer functionality adaptation, and demonstrate the resulting capabilities with our proof-ofprinciple platform Mix-N-Map that is currently pending user testing. We believe a general PMSon framework explicitly rooted in audio mixing can potentially advance theory and practice to the benefit of PMSon designers and users alike.
simple characterizations lack generality and may be ambiguous - both issues hamper mapping function design, conceptualization, and dissemination. We seek to address them through knowledge transfer from audio mixing, a mature craft with strong parallels
to PMSon design. For mixing, it was a versatile and universally applicable technological platform (the multitrack mixer) that supported the development of mixing technique, concepts, and recent formalizations thereof, laying the foundation for modern audio
production. We posit that a PMSon design platform that adapts the essential elements of the mixer can similarly reinforce PMSon by supporting a mapping function representation directly tied to the design process. We define the correspondence between mixing and PMSon design, outline specifics of mixer functionality adaptation, and demonstrate the resulting capabilities with our proof-ofprinciple platform Mix-N-Map that is currently pending user testing. We believe a general PMSon framework explicitly rooted in audio mixing can potentially advance theory and practice to the benefit of PMSon designers and users alike.
| Originalsprog | Engelsk |
|---|---|
| Titel | Proceedings of the 29th International Conference on Auditory Display (ICAD2024) : Sonification / Spatialization |
| Antal sider | 8 |
| Forlag | The International Community for Auditory Display |
| Publikationsdato | jun. 2024 |
| Sider | 148-155 |
| ISBN (Elektronisk) | 979-8-9914562-0-3 |
| DOI | |
| Status | Udgivet - jun. 2024 |
| Begivenhed | The 29th International Conference on Auditory Display (ICAD 2024) - Troy, USA Varighed: 24 jun. 2024 → 28 jun. 2024 Konferencens nummer: 29 https://icad2024.icad.org/ |
Konference
| Konference | The 29th International Conference on Auditory Display (ICAD 2024) |
|---|---|
| Nummer | 29 |
| Land/Område | USA |
| By | Troy |
| Periode | 24/06/2024 → 28/06/2024 |
| Internetadresse |
| Navn | Proceedings of the International Conference on Auditory Display |
|---|---|
| ISSN | 2168-5126 |
Fingeraftryk
Dyk ned i forskningsemnerne om 'Adapting Audio Mixing Principles and Tools to Parameter Mapping Sonification Design'. Sammen danner de et unikt fingeraftryk.Priser
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Best Student Paper Award
Kantan, P. R. (Modtager), Dahl, S. (Modtager) & Spaich, E. G. (Modtager), 28 jun. 2024
Pris: Konferencepriser