International audienceThe goal of this paper is to interpolate Room Impulse Responses (RIRs) within a whole volume, from a few measurements. We here focus on the early reflections, that have the key property of being sparse in the time domain: this can be exploited in a framework of model-based Compressed Sensing. Starting from a set of RIRs randomly sampled in space by a 3D microphone array, we use a modified Matching Pursuit algorithm to estimate the position of a small set of virtual sources. Then, the reconstruction of the RIRs at interpolated positions is performed using a projection onto a basis of monopoles. This approach is validated both by numerical and experimental measurements using a 120-microphone 3D array
International audienceWe consider the estimation of multiple room impulse responses from the simulta...
Acoustic channels are typically described by their Acoustic Impulse Response (AIR) as a Moving Avera...
International audienceModal analysis classicaly used signals that respect the Shannon/Nyquist theory...
International audienceIn a room, the acoustic transfer between a source and a receiver is described ...
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...
Room Impulse Responses (RIRs) are typically measured using a set of microphones and a loudspeaker. W...
© 2017 IEEE. Room Impulse Responses (RIRs) are typically measured using a set of microphones and a l...
Room Impulse Responses (RIRs) are typically measured using a set of microphones and a loudspeaker. ...
To create multiple sound zones, it is often necessary to get a measure of room impulse responses of ...
International audienceIn this work, a Compressed Sensing (CS) strategy is developed in order to join...
International audienceDirectly measuring the full set of acoustic impulse responses within a room wo...
The spatio-temporal sparsity of room impulse responses (RIRs) degrades in the late part due to the s...
Recent advances in signal processing, machine learning and deep learning with sparse intrinsic struc...
The estimation of the soundfield in locations different from the measurement points in a room is a c...
International audienceWe consider the estimation of multiple room impulse responses from the simulta...
Acoustic channels are typically described by their Acoustic Impulse Response (AIR) as a Moving Avera...
International audienceModal analysis classicaly used signals that respect the Shannon/Nyquist theory...
International audienceIn a room, the acoustic transfer between a source and a receiver is described ...
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...
Room Impulse Responses (RIRs) are typically measured using a set of microphones and a loudspeaker. W...
© 2017 IEEE. Room Impulse Responses (RIRs) are typically measured using a set of microphones and a l...
Room Impulse Responses (RIRs) are typically measured using a set of microphones and a loudspeaker. ...
To create multiple sound zones, it is often necessary to get a measure of room impulse responses of ...
International audienceIn this work, a Compressed Sensing (CS) strategy is developed in order to join...
International audienceDirectly measuring the full set of acoustic impulse responses within a room wo...
The spatio-temporal sparsity of room impulse responses (RIRs) degrades in the late part due to the s...
Recent advances in signal processing, machine learning and deep learning with sparse intrinsic struc...
The estimation of the soundfield in locations different from the measurement points in a room is a c...
International audienceWe consider the estimation of multiple room impulse responses from the simulta...
Acoustic channels are typically described by their Acoustic Impulse Response (AIR) as a Moving Avera...
International audienceModal analysis classicaly used signals that respect the Shannon/Nyquist theory...