In this paper we present a simple yet effective method for estimating the geometry of an acoustic enclosure in three-dimensions. By capturing the acoustic impulse responses using a microphone array and a loudspeaker at different spatial locations we transform the localization of planar reflectors into the estimation of multiple linear reflectors. By decomposing the microphone array into co-planar sub-arrays the line parameters of the reflectors lying on the corresponding planes can be inferred using a geometric constraint. By intersecting these lines the actual lying plane of each reflector can be estimated. The proposed method is evaluated using a three-dimensional microphone array in a real conference room
Loudspeakers are usually placed in an environment unknown to the loudspeaker designers. Having knowl...
Acoustic reflector localization is an important issue in audio signal processing, with direct applic...
Estimating the geometric properties of an indoor environment through acoustic room impulse responses...
In this paper we present a simple yet effective method for estimating the geometry of an acoustic en...
In this paper we propose a methodology for localizing acoustic pla-nar reflectors in a 3D geometry, ...
In this paper we propose a methodology for localizing acoustic planar reflectors in a 3D geometry, u...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
Determining the geometry of an acoustic enclosure using microphone arrays has become an active area ...
This paper concerns the problem of localizing three-dimensional planar obstacles through multiple e...
Room geometry inference is concerned with the localization of reflective boundaries in an enclosed s...
The response of a sound system in a room primarily varies with the room itself, the position of the ...
State-of-the-art room geometry inference algorithms estimate the shape of a room by analyzing peaks ...
Abstract-The geometry of an acoustic environment can be an important information in many audio signa...
Loudspeakers are usually placed in an environment unknown to the loudspeaker designers. Having knowl...
Acoustic reflector localization is an important issue in audio signal processing, with direct applic...
Estimating the geometric properties of an indoor environment through acoustic room impulse responses...
In this paper we present a simple yet effective method for estimating the geometry of an acoustic en...
In this paper we propose a methodology for localizing acoustic pla-nar reflectors in a 3D geometry, ...
In this paper we propose a methodology for localizing acoustic planar reflectors in a 3D geometry, u...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
Determining the geometry of an acoustic enclosure using microphone arrays has become an active area ...
This paper concerns the problem of localizing three-dimensional planar obstacles through multiple e...
Room geometry inference is concerned with the localization of reflective boundaries in an enclosed s...
The response of a sound system in a room primarily varies with the room itself, the position of the ...
State-of-the-art room geometry inference algorithms estimate the shape of a room by analyzing peaks ...
Abstract-The geometry of an acoustic environment can be an important information in many audio signa...
Loudspeakers are usually placed in an environment unknown to the loudspeaker designers. Having knowl...
Acoustic reflector localization is an important issue in audio signal processing, with direct applic...
Estimating the geometric properties of an indoor environment through acoustic room impulse responses...