Abstract — This article presents a microphone array shape calibration procedure for diffuse noise environments. The procedure estimates inter-microphone distances by fitting the measured noise coherence with its theoretical model, and then estimates the array geometry using classical multi-dimensional scaling. The technique is validated on noise recordings from two office environments. I
This paper proposes a method that solves the problem of geometric calibration of microphone arrays....
International audienceThis paper presents crystal-MUSIC, a method for DOA estimation of multiple sou...
This paper describes a microphone array-based measurement systems for mapping noise sources in car c...
This correspondence presents a microphone array shape calibration procedure for diffuse noise enviro...
International audienceThis paper presents a complete strategy for the geometry estimation of large m...
In this paper, we investigate the diffuse field coherence model for microphone array pairwise distan...
Spatial cross coherence function between two locations in a diffuse sound field is a function of the...
Classical multidimensional scaling (MDS) is a simple, global, non-iterative technique for determinin...
We propose a straightforward and cost-effective method to perform diffuse soundfield measurements f...
A novel approach to calibrate the geometry of microphones using a single sound event is proposed. A ...
This report presents a tutorial of fundamental array processing and beamforming theory relevant to m...
Computational auditory scene analysis exploits signals acquired by means of microphone arrays. In so...
The diffuseness of sound can be estimated with practical microphone setups by considering the spatia...
This paper addresses the problem of ad hoc microphone array calibration where only partial informati...
An array with MEMS microphones can distinguish individual noise sources in an environment through sp...
This paper proposes a method that solves the problem of geometric calibration of microphone arrays....
International audienceThis paper presents crystal-MUSIC, a method for DOA estimation of multiple sou...
This paper describes a microphone array-based measurement systems for mapping noise sources in car c...
This correspondence presents a microphone array shape calibration procedure for diffuse noise enviro...
International audienceThis paper presents a complete strategy for the geometry estimation of large m...
In this paper, we investigate the diffuse field coherence model for microphone array pairwise distan...
Spatial cross coherence function between two locations in a diffuse sound field is a function of the...
Classical multidimensional scaling (MDS) is a simple, global, non-iterative technique for determinin...
We propose a straightforward and cost-effective method to perform diffuse soundfield measurements f...
A novel approach to calibrate the geometry of microphones using a single sound event is proposed. A ...
This report presents a tutorial of fundamental array processing and beamforming theory relevant to m...
Computational auditory scene analysis exploits signals acquired by means of microphone arrays. In so...
The diffuseness of sound can be estimated with practical microphone setups by considering the spatia...
This paper addresses the problem of ad hoc microphone array calibration where only partial informati...
An array with MEMS microphones can distinguish individual noise sources in an environment through sp...
This paper proposes a method that solves the problem of geometric calibration of microphone arrays....
International audienceThis paper presents crystal-MUSIC, a method for DOA estimation of multiple sou...
This paper describes a microphone array-based measurement systems for mapping noise sources in car c...