Title :
Spectral and Spatial Multichannel Analysis/Synthesis of Interior Aircraft Sounds
Author :
Verron, C. ; Gauthier, P.-A. ; Langlois, J. ; Guastavino, C.
Author_Institution :
Multimodal Interaction Lab., McGill Univ., Montreal, QC, Canada
Abstract :
A method for spectral and spatial multichannel analysis/synthesis of interior aircraft sounds is presented. We propose two extensions of the classical sinusoids+noise model, adapted to multichannel stationary sounds. First, a spectral estimator is described, using average information across channels for spectral peak detection. Second, the residual modeling is extended to integrate two interchannel spatial cues (i.e., coherence and phase difference). This approach allows real-time synthesis and control of sounds spectral and spatial characteristics. It finds applications for multichannel aircraft sound reproduction, and more generally for musical and environmental sound synthesis. The ability of the model to reproduce multichannel aircraft sounds is assessed by a numerical simulation.
Keywords :
acoustic signal detection; aircraft; signal synthesis; spectral analysis; classical sinusoid-noise model; environmental sound synthesis; interchannel spatial cues; interior aircraft sounds; multichannel aircraft sound reproduction; multichannel stationary sounds; musical sound; real-time synthesis; residual modeling; sound spectral control; spatial characteristics; spatial multichannel analysis; spatial multichannel synthesis; spectral estimator; spectral multichannel analysis; spectral peak detection; Aircraft; Aircraft propulsion; Atmospheric modeling; Biological system modeling; Channel estimation; Coherence; Noise; Aircraft sounds; analysis/synthesis; diffuse noise; interchannel coherence; interchannel phase difference; sinusoidal modeling; spatial sound; spectral envelope;
Journal_Title :
Audio, Speech, and Language Processing, IEEE Transactions on
DOI :
10.1109/TASL.2013.2248712
