ABSTRACT: This paper presents a robust method for two-dimensional (2D) impulsive acoustic source localization in a room environment using low sampling rates. The proposed method finds the time delay from the room impulse response (RIR) which makes it robust against room reverberations. We consider the RIR as a sparse phenomenon and apply a recently proposed sparse signal reconstruction technique called orthogonal clustering (OC) for its estimation from the sub-sampled received signal. The arrival time of the direct path signal at a pair of microphones is identified from the estimated RIR, and their difference yields the desired time delay estimate (TDE). Low sampling rates reduces the hardware and computational complexity and decreases the ...
TDOA- (time difference of arrival-) based algorithms are common methods for speech source localizati...
International audienceAcoustic source localization is traditionally performed using cues such as int...
Subspace-based methods require a large number of sensors for localization of closely spaced sources ...
In this paper we experiment with 2-D source localization in smart homes under adverse conditions usi...
Localization of acoustic sources in the presence of reverberation is still a challenging task in aud...
The very large relative bandwidth of acoustic sources, coupled with the high number of reflections o...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
Abstract(#br)The presence of far-field noise and reverberation poses significant challenges to the c...
Localization of acoustic sources in reverberant environments by microphone arrays remains a challeng...
In this paper we demonstrate that recently-developed sparse recov-ery algorithms can be used to impr...
International audienceWe introduce a source localisation method dealing with an unknown reverberant ...
International audienceMeasuring the Room Impulse Responses within a finite 3D spatial domain can req...
This paper investigates sound source localisation using an ad-hoc microphone array, where the microp...
Localizing multiple sound sources in reverberant environments is a challenging problem in acoustic ...
This letter proposes a new method for source and microphone localization in reverberant environments...
TDOA- (time difference of arrival-) based algorithms are common methods for speech source localizati...
International audienceAcoustic source localization is traditionally performed using cues such as int...
Subspace-based methods require a large number of sensors for localization of closely spaced sources ...
In this paper we experiment with 2-D source localization in smart homes under adverse conditions usi...
Localization of acoustic sources in the presence of reverberation is still a challenging task in aud...
The very large relative bandwidth of acoustic sources, coupled with the high number of reflections o...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
Abstract(#br)The presence of far-field noise and reverberation poses significant challenges to the c...
Localization of acoustic sources in reverberant environments by microphone arrays remains a challeng...
In this paper we demonstrate that recently-developed sparse recov-ery algorithms can be used to impr...
International audienceWe introduce a source localisation method dealing with an unknown reverberant ...
International audienceMeasuring the Room Impulse Responses within a finite 3D spatial domain can req...
This paper investigates sound source localisation using an ad-hoc microphone array, where the microp...
Localizing multiple sound sources in reverberant environments is a challenging problem in acoustic ...
This letter proposes a new method for source and microphone localization in reverberant environments...
TDOA- (time difference of arrival-) based algorithms are common methods for speech source localizati...
International audienceAcoustic source localization is traditionally performed using cues such as int...
Subspace-based methods require a large number of sensors for localization of closely spaced sources ...