This paper presents a new deterministic algorithm for the creative morphing or hybridization of two sounds, for use in movies and videogames sonification, experimental music composition or creative sound synthesis. The algorithm is based on DiscreteWavelet Transform (DWT) filter banks, for sound decomposition, and one IDWT filter bank where a mix of the DWT coefficients streams is transformed back in the time domain for output. The use of the DWT for this purpose proves more computationally efficient than stochastic methods while more perceptually oriented than DFT because of its nonuniform time-frequency decomposition and introduces less control parameters. The addition of an onset detection algorithm in the wavelet domain helps creating dynamic morphing. A Pure Data implementation of the algorithm has been performed to investigate the problem of controlling the morphing parameters with physical interfaces such as touch sensitive screens.

Ibrida: a new DWT-domain sound hybridization tool / Gabrielli, Leonardo; Squartini, Stefano. - 2012:(2012), pp. 24-29. (Intervento presentato al convegno 45th International Conference: Applications of Time-Frequency Processing in Audio tenutosi a Helsinki, Finland nel 1-4 March 2012).

Ibrida: a new DWT-domain sound hybridization tool

GABRIELLI, LEONARDO;SQUARTINI, Stefano
2012-01-01

Abstract

This paper presents a new deterministic algorithm for the creative morphing or hybridization of two sounds, for use in movies and videogames sonification, experimental music composition or creative sound synthesis. The algorithm is based on DiscreteWavelet Transform (DWT) filter banks, for sound decomposition, and one IDWT filter bank where a mix of the DWT coefficients streams is transformed back in the time domain for output. The use of the DWT for this purpose proves more computationally efficient than stochastic methods while more perceptually oriented than DFT because of its nonuniform time-frequency decomposition and introduces less control parameters. The addition of an onset detection algorithm in the wavelet domain helps creating dynamic morphing. A Pure Data implementation of the algorithm has been performed to investigate the problem of controlling the morphing parameters with physical interfaces such as touch sensitive screens.
2012
9781622760077
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/66726
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