Add to ORKGInternational audienceThis paper presents a strategy to the localization of multiple sound sources from a static binaural head. The sources are supposed W-Disjoint Orthogonal and their number is assumed known. Their most likely azimuths are computed by means of the Expectation-Maximization algorithm. Application of the method on simulated data is reported, as well as some evaluations of its HARK implementation on experimental data. Two important properties are observed: scattering effects can be coped with, thanks to the required prior knowledge of the (room-independent) head interaural transfer function; the environment noise statistics are handled separately
Abstract—This paper addresses the problem of localizing audio sources using binaural measurements. W...
This paper addresses the problem of direction-of-arrival (DOA) estimation both in azimuthal and elev...
In this thesis we present three algorithms for the mathematical analysis of head-related transfer fu...
International audienceThis paper presents a strategy to the localization of multiple sound sources f...
The spectral localization cues contained in the head-related transfer function are known to play a c...
The spectral localization cues contained in the head-related transfer function are known to play a c...
The robust localization of speech sources is required for a wide range of applications, among them h...
Although extensive research has been done in the field of machine-based localization, the degrading ...
Binaural source localization is based on use of two sensors to perform localization of audio sources...
The objective of machine-based binaural sound source localisation is to estimate the position of sou...
Binaural recording technology offers an inexpensive, portable solution for spatial audio capture. In...
Although extensive research has been done in the field of localization, the degrading effect of reve...
Whereas the human auditory system has remarkable capabilities to focus on a particular target source...
Abstract—This paper addresses the problem of localizing audio sources using binaural measurements. W...
This paper addresses the problem of direction-of-arrival (DOA) estimation both in azimuthal and elev...
In this thesis we present three algorithms for the mathematical analysis of head-related transfer fu...
International audienceThis paper presents a strategy to the localization of multiple sound sources f...
The spectral localization cues contained in the head-related transfer function are known to play a c...
The spectral localization cues contained in the head-related transfer function are known to play a c...
The robust localization of speech sources is required for a wide range of applications, among them h...
Although extensive research has been done in the field of machine-based localization, the degrading ...
Binaural source localization is based on use of two sensors to perform localization of audio sources...
The objective of machine-based binaural sound source localisation is to estimate the position of sou...
Binaural recording technology offers an inexpensive, portable solution for spatial audio capture. In...
Although extensive research has been done in the field of localization, the degrading effect of reve...
Whereas the human auditory system has remarkable capabilities to focus on a particular target source...
Abstract—This paper addresses the problem of localizing audio sources using binaural measurements. W...
This paper addresses the problem of direction-of-arrival (DOA) estimation both in azimuthal and elev...
In this thesis we present three algorithms for the mathematical analysis of head-related transfer fu...