In this paper, we investigate the diffuse field coherence model for microphone array pairwise distance estimation. We study the fundamental constraints and assumptions underlying this approach and propose evaluation methodologies to measure the adequacy of diffuseness for microphone array calibration. In addition, an enhanced scheme based on coherence averaging and histogramming, is presented to improve the robustness and performance of the pairwise distance estimation approach. The proposed theories and algorithms are evaluated on simulated and real data recordings for calibration of microphone array geometry in an ad hoc set-up
We consider the general problem of microphone array signal processing in diffuse noise environments....
We address the problem of microphone location cali- bration where the sensor positions have a sparse...
The signal-to-diffuse ratio (SDR), which describes the power ratio between the direct and diffuse co...
Abstract — This article presents a microphone array shape calibration procedure for diffuse noise en...
This correspondence presents a microphone array shape calibration procedure for diffuse noise enviro...
We propose a straightforward and cost-effective method to perform diffuse soundfield measurements f...
The diffuseness of sound can be estimated with practical microphone setups by considering the spatia...
We propose a novel formulation of the generalized cross correlation with phase transform (GCC-PHAT) ...
Spatial cross coherence function between two locations in a diffuse sound field is a function of the...
We consider the problem of ad~hoc microphone array calibration where the distance matrix consisted o...
Ad-hoc microphone arrays formed from the microphones of mobile devices such as smart phones, tablets...
International audienceThis paper presents a complete strategy for the geometry estimation of large m...
Measuring the degree of diffuseness of a sound field is crucial in many modern parametric spatial au...
This paper addresses the problem of ad hoc microphone array calibration where only partial informati...
Abstract—The diffuseness of sound fields has previously been estimated in the spatial domain using t...
We consider the general problem of microphone array signal processing in diffuse noise environments....
We address the problem of microphone location cali- bration where the sensor positions have a sparse...
The signal-to-diffuse ratio (SDR), which describes the power ratio between the direct and diffuse co...
Abstract — This article presents a microphone array shape calibration procedure for diffuse noise en...
This correspondence presents a microphone array shape calibration procedure for diffuse noise enviro...
We propose a straightforward and cost-effective method to perform diffuse soundfield measurements f...
The diffuseness of sound can be estimated with practical microphone setups by considering the spatia...
We propose a novel formulation of the generalized cross correlation with phase transform (GCC-PHAT) ...
Spatial cross coherence function between two locations in a diffuse sound field is a function of the...
We consider the problem of ad~hoc microphone array calibration where the distance matrix consisted o...
Ad-hoc microphone arrays formed from the microphones of mobile devices such as smart phones, tablets...
International audienceThis paper presents a complete strategy for the geometry estimation of large m...
Measuring the degree of diffuseness of a sound field is crucial in many modern parametric spatial au...
This paper addresses the problem of ad hoc microphone array calibration where only partial informati...
Abstract—The diffuseness of sound fields has previously been estimated in the spatial domain using t...
We consider the general problem of microphone array signal processing in diffuse noise environments....
We address the problem of microphone location cali- bration where the sensor positions have a sparse...
The signal-to-diffuse ratio (SDR), which describes the power ratio between the direct and diffuse co...