Several real-life applications require a system that would reliably locate and track a single speaker. This can be achieved by using visual or audio data. Processing of an incoming signal to obtain the location of a source is known as Direction of Arrival (DOA) estimation. The basic setting in audio based DOA estimation is a set of microphones situated in known locations. The signal is captured by each of the microphones, and the signals are analyzed by one of the following methods: steered beamformer based method; subspace based method; or time delay estimation based method. The aim of this thesis is to review different classes of existing methods for DOA estimation and to create an application for visualizing the dominant sound source dir...
This paper deals with estimation of the target sound Direction of Arrival (DoA) or a Hearing Aid Sys...
This paper deals with received acoustic signals on microphone array. In this paper the localization ...
In a recent paper [P. Rizzo, G. Bordoni, A. Marzani, and J. Vipperman, \u201cLocalization of Sound S...
Several real-life applications require a system that would reliably locate and track a single speake...
International audienceWe recently proposed an approach inspired by Sparse Component Analysis for rea...
The angular location of an acoustic source can be estimated by measuring an acoustic direction of in...
This paper investigates the use of an Acoustic Vector Sensor (AVS) for tracking a moving speaker in ...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
The blind source separation and localization problem for audio signals is studied using microphone a...
Speaker localization with microphone arrays has received significant attention in the past decade as...
Sound localization is a field of signal processing that deals with identifying the origin of a detec...
The aim of this research is to investigate microphone array techniques based condition monitoring (C...
International audienceRecently, we proposed an approach inspired by Sparse Component Analysis for re...
This paper investigates the application of the steered response power - phase transform (SRP-PHAT) m...
This bachelor's work describe detection of direction receiving sound by analizing of the sound. Work...
This paper deals with estimation of the target sound Direction of Arrival (DoA) or a Hearing Aid Sys...
This paper deals with received acoustic signals on microphone array. In this paper the localization ...
In a recent paper [P. Rizzo, G. Bordoni, A. Marzani, and J. Vipperman, \u201cLocalization of Sound S...
Several real-life applications require a system that would reliably locate and track a single speake...
International audienceWe recently proposed an approach inspired by Sparse Component Analysis for rea...
The angular location of an acoustic source can be estimated by measuring an acoustic direction of in...
This paper investigates the use of an Acoustic Vector Sensor (AVS) for tracking a moving speaker in ...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
The blind source separation and localization problem for audio signals is studied using microphone a...
Speaker localization with microphone arrays has received significant attention in the past decade as...
Sound localization is a field of signal processing that deals with identifying the origin of a detec...
The aim of this research is to investigate microphone array techniques based condition monitoring (C...
International audienceRecently, we proposed an approach inspired by Sparse Component Analysis for re...
This paper investigates the application of the steered response power - phase transform (SRP-PHAT) m...
This bachelor's work describe detection of direction receiving sound by analizing of the sound. Work...
This paper deals with estimation of the target sound Direction of Arrival (DoA) or a Hearing Aid Sys...
This paper deals with received acoustic signals on microphone array. In this paper the localization ...
In a recent paper [P. Rizzo, G. Bordoni, A. Marzani, and J. Vipperman, \u201cLocalization of Sound S...