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All Outputs (4)

Physically derived synthesis model of a cavity tone (2017)
Presentation / Conference Contribution
Selfridge, R., Reiss, J., & Avital, E. (2017, September). Physically derived synthesis model of a cavity tone. Presented at 20th International Conference on Digital Audio Effects, Edinburgh, UK

The cavity tone is the sound generated when air flows over the open surface of a cavity and a number of physical conditions are met. Equations obtained from fluid dynamics and aerodynamics research are utilised to produce authentic cavity tones witho... Read More about Physically derived synthesis model of a cavity tone.

Physically Derived Sound Synthesis Model of a Propeller (2017)
Presentation / Conference Contribution
Selfridge, R., Moffat, D., & Reiss, J. (2017, August). Physically Derived Sound Synthesis Model of a Propeller. Presented at AM '17: Audio Mostly 2017, London United Kingdom

A real-time sound synthesis model for propeller sounds is presented. Equations obtained from fluid dynamics and aerodynamics research are utilised to produce authentic propeller- powered aircraft sounds. The result is a physical model in which the ge... Read More about Physically Derived Sound Synthesis Model of a Propeller.

Real-time physical model of an Aeolian harp (2017)
Presentation / Conference Contribution
Selfridge, R., Moffat, D., Reiss, J., & Avital, E. (2017, July). Real-time physical model of an Aeolian harp. Presented at The 24th International Congress on Sound and Vibration (ICSV24), London, UK

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... Read More about Real-time physical model of an Aeolian harp.

Real-time physical model for synthesis of sword swing sounds (2017)
Presentation / Conference Contribution
Selfridge, R., Moffat, D., & Reiss, J. (2017, July). Real-time physical model for synthesis of sword swing sounds. Presented at 14th Sound and Music Computing Conference, Espoo, Finland

Sword sounds are synthesised by physical models in real- time. A number of compact sound sources are used along the length of the sword which replicate the swoosh sound when swung through the air. Listening tests are carried out which reveal a model... Read More about Real-time physical model for synthesis of sword swing sounds.