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Real-time physical model of an Aeolian harp

Selfridge, Rod; Moffat, David; Reiss, Joshua; Avital, Eldad

Authors

David Moffat

Joshua Reiss

Eldad Avital



Abstract

A real-time physical sound synthesis model of an Aeolian harp is presented. The model uses semi-empirical fluid dynamics equations to inform its operation, providing suitable parameters for users to interact. A basic wind model is included as well as an interface allowing user adjustable parameters. Sounds generated by the model were subject to objective measurements against real-world recordings, which showed that many of the physical properties of the harp were replicated in our model, but a possible link between harmonics and vibration amplitude was not. A perceptual test was performed, where participants were asked to rate sounds in terms of how plausible they were in comparison with spectral modelling synthesis and recorded Aeolian Harp samples. Evaluation showed that our model performed as well as an alternative non-physical synthesis method, but was not as authentic as actual recorded samples.

Citation

Selfridge, R., Moffat, D., Reiss, J., & Avital, E. (2017). Real-time physical model of an Aeolian harp. In The 24th International Congress on Sound and Vibration (ICSV24)

Conference Name The 24th International Congress on Sound and Vibration (ICSV24)
Conference Location London, UK
Start Date Jul 23, 2017
End Date Jul 27, 2017
Online Publication Date Jul 23, 2017
Publication Date Jul 23, 2017
Deposit Date Jan 24, 2023
Book Title The 24th International Congress on Sound and Vibration (ICSV24)

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