论文信息 - Spatial filtering using directional audio coding parameters

Spatial filtering using directional audio coding parameters

Directional audio coding (DirAC) is a recent method for spatial audio processing, based on a perceptually motivated representation of spatial sound. Due to its efficiency, DirAC has already been proposed for spatial audio teleconferencing scenarios. Modern hands-free communication systems usually include beamforming techniques to improve speech intelligibility by suppressing diffuse background noise and interfering sources. In this paper, we propose a novel spatial filtering method which can be integrated into the DirAC spatial codec. It uses a spectral weighting of the recorded audio signal, where the design of the corresponding spatial filter transfer function is based on the DirAC parameters, i. e., direction-of-arrival and diffuseness of the sound field. Simulation results show that compared to a standard beamformer the novel technique offers significantly higher interference attenuation, while introducing similar distortion of the desired signal.

[1] Gary W. Elko,et al. Superdirectional microphone arrays , 2000 .

[2] Joerg Bitzer,et al. Post-Filtering Techniques , 2001, Microphone Arrays.

[3] Juha Merimaa,et al. Analysis, synthesis, and perception of spatial sound : binaural localization modeling and multichannel loudspeaker reproduction , 2006 .

[4] Klaus Uwe Simmer,et al. Superdirective Microphone Arrays , 2001, Microphone Arrays.

[5] Jukka Ahonen,et al. Analysis and Adjustment of Planar Microphone Arrays for Application in Directional Audio Coding , 2008 .

[6] V. Hohmann,et al. PERCEPTUAL QUALITY MEASURES FOR THE EVALUATION OF NOISE REDUCTION SCHEMES , 2005 .

[7] B Kollmeier,et al. Directivity of binaural noise reduction in spatial multiple noise-source arrangements for normal and impaired listeners. , 1997, The Journal of the Acoustical Society of America.

[8] Ville Pulkki,et al. Spatial Sound Reproduction with Directional Audio Coding , 2007 .

[9] Ahmet M. Kondoz,et al. Acoustic Source Separation of Convolutive Mixtures Based on Intensity Vector Statistics , 2008, IEEE Transactions on Audio, Speech, and Language Processing.