Add to ORKGThis work aims at improving speech recognition in noisy environments using a microphone array. The proposed approach is based on a preliminary generation of N-best hypotheses. The use of an adaptive maximum likelihood beamformer (the Limabeam algorithm), applied in parallel to each hypothesis, leads to an updated set of transcriptions, among which the maximally likely to clean speech models is selected. Results show that this method improves recognition accuracy over both Delay and Sum Beamforming and Unsupervised Limabeam especially at low SNRs. Results also show that it can recover the recognition errors made in the first recognition step
This work discusses on the use of microphone arrays for hands-free continuous speech recognition in ...
The use of a microphone array for hands-free continuous speech recognition in noisy and reverberant ...
Acoustic condition monitoring is an important technology for non-invasive condition monitoring, but ...
This work aims at improving speech recognition in noisy environments using a microphone array. The p...
Performance of distant-talking speech recognizers in real noisy environments can be increased using ...
... In this paper a new approach to microphone-array processing is proposed in which the goal of th...
Abstract—Speech recognition performance degrades signifi-cantly in distant-talking environments, whe...
In this paper we present a speech-recognizer-based maximum-likelihood beamforming technique, that ca...
Limabeam is an approach to multi-microphone array processing for ASR which makes minimal assumptions...
Microphone arrays can be advantageously employed in Automatic Speech Recognition (ASR) systems to al...
ICSLP1998: the 5th International Conference on Spoken Language Processing, November 30 - December 4...
The use of a microphone array for hands-free continuous speech recognition in noisy and reverberant...
This paper describes an improved complementary beamforming microphone array based on the new noise a...
This paper proposes a clustered approach for blind beamfoming from ad-hoc microphone arrays. In such...
We present a new adaptive microphone array efficiently im-plemented as a multi-channel FFT-filterban...
This work discusses on the use of microphone arrays for hands-free continuous speech recognition in ...
The use of a microphone array for hands-free continuous speech recognition in noisy and reverberant ...
Acoustic condition monitoring is an important technology for non-invasive condition monitoring, but ...
This work aims at improving speech recognition in noisy environments using a microphone array. The p...
Performance of distant-talking speech recognizers in real noisy environments can be increased using ...
... In this paper a new approach to microphone-array processing is proposed in which the goal of th...
Abstract—Speech recognition performance degrades signifi-cantly in distant-talking environments, whe...
In this paper we present a speech-recognizer-based maximum-likelihood beamforming technique, that ca...
Limabeam is an approach to multi-microphone array processing for ASR which makes minimal assumptions...
Microphone arrays can be advantageously employed in Automatic Speech Recognition (ASR) systems to al...
ICSLP1998: the 5th International Conference on Spoken Language Processing, November 30 - December 4...
The use of a microphone array for hands-free continuous speech recognition in noisy and reverberant...
This paper describes an improved complementary beamforming microphone array based on the new noise a...
This paper proposes a clustered approach for blind beamfoming from ad-hoc microphone arrays. In such...
We present a new adaptive microphone array efficiently im-plemented as a multi-channel FFT-filterban...
This work discusses on the use of microphone arrays for hands-free continuous speech recognition in ...
The use of a microphone array for hands-free continuous speech recognition in noisy and reverberant ...
Acoustic condition monitoring is an important technology for non-invasive condition monitoring, but ...