Add to ORKGThe need to accurately and efficiently estimate room impulse responses arises in many acoustic signal processing applications. In this work, we present a general family of algorithms which contain the conventional normalized least mean squares (NLMS) algorithm as a special case. Specific members of this family yield estimates which are robust both to different noise models and choice of parameters. We demonstrate the merits of our approach to accurately estimate sparse room impulse responses in simulations with speech signals
Estimating time-difference-of-arrival (TDOA) remains a challenging task when acoustic environments a...
Sparseness variation in acoustic impulse response arises due to changes in temperature, pressure, ac...
Localization of early room reflections can be achieved by estimating the time-differences-of-arrival...
The need to accurately and efficiently estimate room impulse responses arises in many acoustic signa...
International audienceMeasuring the Room Impulse Responses within a finite 3D spatial domain can req...
This paper introduces a method to recover unmeasured room impulse responses (RIRs) in acoustical spa...
Parametric modeling of room acoustics aims at representing room transfer functions (RTFs) by means o...
© 2017 IEEE. Room Impulse Responses (RIRs) are typically measured using a set of microphones and a l...
Acoustic impulse response functions are generally sparse in nature and traditionally these are model...
International audienceWe propose to acquire large sets of room impulse responses (RIRs) by simultane...
Most techniques used to estimate the transfer function (or impulse response) of an acoustical space ...
A common way of increasing the robustness of affine projec-tion and normalized least mean squares ad...
Acoustic channels are typically described by their Acoustic Impulse Response (AIR) as a Moving Avera...
Room Impulse Responses (RIRs) are typically measured using a set of microphones and a loudspeaker. W...
To create multiple sound zones, it is often necessary to get a measure of room impulse responses of ...
Estimating time-difference-of-arrival (TDOA) remains a challenging task when acoustic environments a...
Sparseness variation in acoustic impulse response arises due to changes in temperature, pressure, ac...
Localization of early room reflections can be achieved by estimating the time-differences-of-arrival...
The need to accurately and efficiently estimate room impulse responses arises in many acoustic signa...
International audienceMeasuring the Room Impulse Responses within a finite 3D spatial domain can req...
This paper introduces a method to recover unmeasured room impulse responses (RIRs) in acoustical spa...
Parametric modeling of room acoustics aims at representing room transfer functions (RTFs) by means o...
© 2017 IEEE. Room Impulse Responses (RIRs) are typically measured using a set of microphones and a l...
Acoustic impulse response functions are generally sparse in nature and traditionally these are model...
International audienceWe propose to acquire large sets of room impulse responses (RIRs) by simultane...
Most techniques used to estimate the transfer function (or impulse response) of an acoustical space ...
A common way of increasing the robustness of affine projec-tion and normalized least mean squares ad...
Acoustic channels are typically described by their Acoustic Impulse Response (AIR) as a Moving Avera...
Room Impulse Responses (RIRs) are typically measured using a set of microphones and a loudspeaker. W...
To create multiple sound zones, it is often necessary to get a measure of room impulse responses of ...
Estimating time-difference-of-arrival (TDOA) remains a challenging task when acoustic environments a...
Sparseness variation in acoustic impulse response arises due to changes in temperature, pressure, ac...
Localization of early room reflections can be achieved by estimating the time-differences-of-arrival...