The success of parametric approaches to spatial sound reproduction and sound field navigation depend on the accuracy of the initial analysis and decomposition of the sound field. In this work, the sector-based high-order extension to intensimetric sound field analysis is evaluated in the context of 3D source localization. The evaluation is performed with simulations of ideal spherical harmonic receiver signals using two intensimetric estimators: source direction-of-arrival and sound field diffuseness. The technique is first assessed for a single receiver with regard to influential factors of analysis order, source incidence angle, and the presence of diffuse noise. The technique is then applied to 3D source localization, utilizing concurren...
We proposed the way that can repeatedly evaluate the localization methods for moving sounds in the s...
Comparing the different sound source localization techniques, proposed in the literature during the ...
In this paper, source localization and dereverberation are formulated jointly as an inverse problem....
The success of parametric approaches to spatial sound reproduction and sound field navigation depend...
In this thesis, the performance of high-order sound field analysis by spatial filtering is evaluated...
Spherical arrays facilitate processing and analysis of sound fields with the potential for high reso...
Estimation of the direction-of-arrival (DOA) of sound sources is an important step in sound field an...
Automatic sound source localization has recently gained interest due to its various applications tha...
Sound source localization in three dimensions with micro- phone arrays is an active field of researc...
Direction-of-arrival (DOA) estimation is an important step in acoustic scene analysis. Multiple sign...
The spherical harmonic (SH) framework is a powerful representation that can be used to describe to a...
Multiple sound sources localization is a hot topic in audio signal processing and is widely utilized...
Speech communication is gaining in popularity in many different contexts as technology evolves. With...
This research is focused on the combination of Sound Source Localization (SSL) methods with Sound So...
We propose a novel method for full-sphere binaural sound source localization that is designed to be ...
We proposed the way that can repeatedly evaluate the localization methods for moving sounds in the s...
Comparing the different sound source localization techniques, proposed in the literature during the ...
In this paper, source localization and dereverberation are formulated jointly as an inverse problem....
The success of parametric approaches to spatial sound reproduction and sound field navigation depend...
In this thesis, the performance of high-order sound field analysis by spatial filtering is evaluated...
Spherical arrays facilitate processing and analysis of sound fields with the potential for high reso...
Estimation of the direction-of-arrival (DOA) of sound sources is an important step in sound field an...
Automatic sound source localization has recently gained interest due to its various applications tha...
Sound source localization in three dimensions with micro- phone arrays is an active field of researc...
Direction-of-arrival (DOA) estimation is an important step in acoustic scene analysis. Multiple sign...
The spherical harmonic (SH) framework is a powerful representation that can be used to describe to a...
Multiple sound sources localization is a hot topic in audio signal processing and is widely utilized...
Speech communication is gaining in popularity in many different contexts as technology evolves. With...
This research is focused on the combination of Sound Source Localization (SSL) methods with Sound So...
We propose a novel method for full-sphere binaural sound source localization that is designed to be ...
We proposed the way that can repeatedly evaluate the localization methods for moving sounds in the s...
Comparing the different sound source localization techniques, proposed in the literature during the ...
In this paper, source localization and dereverberation are formulated jointly as an inverse problem....