© 2014 EURASIP. Numerical methods applied to room acoustics are usually employed to predict the sound pressure at certain positions generated by a known source. In this paper the inverse problem is studied: given a number of microphones placed in a room, the sound pressure is known at these positions and this information may be used to perform a localization and signal reconstruction of the sound source. The source is assumed to be spatially sparse meaning it can be modeled as a point source. The finite difference time domain method is used to model the acoustics of a simple two dimensional square room and its matrix formulation is presented. A two step method is proposed. First a convex optimization problem is solved to localize the source...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
This paper presents a novel approach for room reconstruction using unknown sound signals generated i...
This paper introduces a new method for the estimation of sound source distance and direction using a...
Acoustic source localization often relies on the free-space/far-field model. Recent work exploiting ...
In this paper, source localization and dereverberation are formulated jointly as an inverse problem....
Human localisation of sound in enclosed spaces is a cross-disciplinary research topic, with importan...
© 2014 IEEE. In numerical room acoustic simulations the acoustic impedance of walls and boundaries i...
The estimation of the soundfield in locations different from the measurement points in a room is a c...
International audienceAcoustic source localization is traditionally performed using cues such as int...
Acoustic source localization and dereverberation are formulated jointly as an inverse problem. The i...
International audienceIndoor acoustic source localization can be efficiently performed by modeling t...
Direct methods estimate the position of an acoustic source by sampling the environment through a set...
This letter proposes a new method for source and microphone localization in reverberant environments...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
This paper presents a novel approach for room reconstruction using unknown sound signals generated i...
This paper introduces a new method for the estimation of sound source distance and direction using a...
Acoustic source localization often relies on the free-space/far-field model. Recent work exploiting ...
In this paper, source localization and dereverberation are formulated jointly as an inverse problem....
Human localisation of sound in enclosed spaces is a cross-disciplinary research topic, with importan...
© 2014 IEEE. In numerical room acoustic simulations the acoustic impedance of walls and boundaries i...
The estimation of the soundfield in locations different from the measurement points in a room is a c...
International audienceAcoustic source localization is traditionally performed using cues such as int...
Acoustic source localization and dereverberation are formulated jointly as an inverse problem. The i...
International audienceIndoor acoustic source localization can be efficiently performed by modeling t...
Direct methods estimate the position of an acoustic source by sampling the environment through a set...
This letter proposes a new method for source and microphone localization in reverberant environments...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
This paper presents a novel approach for room reconstruction using unknown sound signals generated i...
This paper introduces a new method for the estimation of sound source distance and direction using a...