Add to ORKGA binaural sound source localization method is proposed that uses interaural and spectral cues for localization of sound sources with any direction of arrival on the full-sphere. The method is designed to be robust to the presence of reverberation, additive noise and different types of sounds. The method uses the interaural phase difference (IPD) for lateral angle localization, then interaural and spectral cues for polar angle localization. The method applies different weighting to the interaural and spectral cues depending on the estimated lateral angle. In particular, only the spectral cues are used for sound sources near or on the median plane
The spectral localization cues contained in the head-related transfer function are known to play a c...
The performance of binaural speech source localization systems can be significantly impacted by an i...
The robust localization of speech sources is required for a wide range of applications, among them h...
A binaural sound source localization method is proposed that uses interaural and spectral cues for l...
We propose a novel method for full-sphere binaural sound source localization that is designed to be ...
The objective of machine-based binaural sound source localisation is to estimate the position of sou...
For a sound source on the median-plane of a binaural system, interaural localization cues are absent...
Binaural recording technology offers an inexpensive, portable solution for spatial audio capture. In...
Binaural sound source localization is an important technique for speech enhancement, video conferenc...
Binaural source localization is a popular technique in various applications,such as hearing aids,mob...
Binaural sound source localization is an important technique for speech enhancement, video conferenc...
Binaural sound source localization consists in estimating the position of a sound source with respec...
Although extensive research has been done in the field of machine-based localization, the degrading ...
Inspired by human sound localization, this paper introduces a novel approach to achieving binaural s...
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 performance of binaural speech source localization systems can be significantly impacted by an i...
The robust localization of speech sources is required for a wide range of applications, among them h...
A binaural sound source localization method is proposed that uses interaural and spectral cues for l...
We propose a novel method for full-sphere binaural sound source localization that is designed to be ...
The objective of machine-based binaural sound source localisation is to estimate the position of sou...
For a sound source on the median-plane of a binaural system, interaural localization cues are absent...
Binaural recording technology offers an inexpensive, portable solution for spatial audio capture. In...
Binaural sound source localization is an important technique for speech enhancement, video conferenc...
Binaural source localization is a popular technique in various applications,such as hearing aids,mob...
Binaural sound source localization is an important technique for speech enhancement, video conferenc...
Binaural sound source localization consists in estimating the position of a sound source with respec...
Although extensive research has been done in the field of machine-based localization, the degrading ...
Inspired by human sound localization, this paper introduces a novel approach to achieving binaural s...
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 performance of binaural speech source localization systems can be significantly impacted by an i...
The robust localization of speech sources is required for a wide range of applications, among them h...