Towards Molecular Musical Instruments: Interactive Sonifications of 17-Alanine, Graphene and Carbon Nanotubes
| Main Authors: | Thomas J. Mitchell, Alex J. Jones, Michael B. O'Connor, Mark D. Wonnacott, David R. Glowacki, Joseph Hyde |
|---|---|
| Format: | info Video Journal |
| Terbitan: |
, 2020
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| Online Access: |
https://zenodo.org/record/3965510 |
Daftar Isi:
- Supplementary materials for the paper: Thomas J. Mitchell, Alex J. Jones, Michael B. O’Connor, Mark D. Wonnacott, David R. Glowacki, and Joseph Hyde. 2020. Towards Molecular Musical Instruments: Interactive Sonifications of 17-Alanine, Graphene and Carbon Nanotubes. In Proceedings of the 15th International Audio Mostly Conference (AM’20), September 15–17, 2020, Graz, Austria. ACM, New York, NY, USA, 8 pages. doi.org/10.1145/3411109.3411143 17-Alanine.mov: Video was created by Alex J. Jones at the University of Bristol An immersive and interactive VR view of simulated 17-Alanine molecule with accompanying sonification. GrapheneMusic.aif: Composed by Joseph Hyde (www.josephhyde.co.uk/) Example1.wav: Molecule: 17-Alanine Friction: 60 Timestep: 0.5 A: 0.1 D: 0.1 S: 1 R: 3 Wavetable Method: Relative Note: C3 Velocity: 127 Temperature: 5 Automation: None Example2. wav: Molecule: 17-Alanine Temperature: various Friction: 60 Timestep: 0.5 Note: C3 Velocity: 127 A: 0.1 D: 0.1 S: 1 R: 3 Wavetable Method: Relative Automation: Temperature Example3.wav: Molecule: 17-Alanine Temperature: various Friction: 100 Timestep: 0.78 Note: C3 Velocity: 127 A: 0.1 D: 0.1 S: 1 R: 0.5 Wavetable Method: Relative Automation: Temperature