Sound acquisition with microphone arrays in reverberant environments typically aims at capturing the direct sound of the sound sources while attenuating noise and reverberation. In applications such as immersive spatial sound reproduction also the reverberant sound represents a desired signal which needs to be extracted from the sound scene. While source separation and dereverberation is well addressed in literature, only few approaches exist for extracting reverberant sound. In this paper, a linearly constrained minimum variance filter is proposed to obtain an estimate of the sound pressure of the reverberant field. The proposed spatial filter provides an almost omnidirectional directivity pattern with spatial nulls for the direction-of-ar...
The characteristics of a sound field at a location are determined by the arrival directions of the d...
We propose a novel and robust method for acoustic direction finding, which is solely based on acoust...
Using a recently proposed informed spatial filter, it is possible to effectively and robustly reduce...
In speech communication systems the received microphone signals are commonly degraded by reverberati...
A spatial filter, with L linear constraints that are based on instantaneous narrowband direction-of-...
In speech communication systems the received microphone signals are commonly degraded by reverberati...
The reproduction of acoustics is one of the key challenges in spatial sound reproduction. In order t...
This chapter presents the multi‐channel filters that are computed using instantaneous information on...
The recording and reproduction of spatial audio gains increasing attention since multichannel sound ...
Extracting sound sources in noisy and reverberant conditions remains a challenging task that is comm...
A new approach for estimating the direct-to-reverberant energy ratio (DRR) using a microphone array ...
The estimation of the soundfield in locations different from the measurement points in a room is a c...
This letter proposes a new method for source and microphone localization in reverberant environments...
The direct-to-reverberant ratio (DRR) is an important characterization of a reverberant environment....
International audienceThis article addresses the modeling of reverberant recording environments in t...
The characteristics of a sound field at a location are determined by the arrival directions of the d...
We propose a novel and robust method for acoustic direction finding, which is solely based on acoust...
Using a recently proposed informed spatial filter, it is possible to effectively and robustly reduce...
In speech communication systems the received microphone signals are commonly degraded by reverberati...
A spatial filter, with L linear constraints that are based on instantaneous narrowband direction-of-...
In speech communication systems the received microphone signals are commonly degraded by reverberati...
The reproduction of acoustics is one of the key challenges in spatial sound reproduction. In order t...
This chapter presents the multi‐channel filters that are computed using instantaneous information on...
The recording and reproduction of spatial audio gains increasing attention since multichannel sound ...
Extracting sound sources in noisy and reverberant conditions remains a challenging task that is comm...
A new approach for estimating the direct-to-reverberant energy ratio (DRR) using a microphone array ...
The estimation of the soundfield in locations different from the measurement points in a room is a c...
This letter proposes a new method for source and microphone localization in reverberant environments...
The direct-to-reverberant ratio (DRR) is an important characterization of a reverberant environment....
International audienceThis article addresses the modeling of reverberant recording environments in t...
The characteristics of a sound field at a location are determined by the arrival directions of the d...
We propose a novel and robust method for acoustic direction finding, which is solely based on acoust...
Using a recently proposed informed spatial filter, it is possible to effectively and robustly reduce...