Fraunhofer-Gesellschaft

Publica

Hier finden Sie wissenschaftliche Publikationen aus den Fraunhofer-Instituten.

Robust ASR in reverberant environments using temporal cepstrum smoothing for speech enhancement and an amplitude modulation filterbank for feature extraction

 
: Xiong, F.; Moritz, N.; Rehr, R.; Anemüller, J.; Meyer, B.T.; Gerkmann, T.; Doclo, S.; Goetze, S.

:
Fulltext (PDF; )
Poster (PDF; )

REVERB Challenge Workshop 2014, REverberant Voice Enhancement and Recognition Benchmark. Online resource : 10 May 2014, Florence, Italy
Florence, 2014
8 pp.
"REverberant Voice Enhancement and Recognition Benchmark" Challenge Workshop (REVERB) <2014, Florence>
English
Conference Paper, Electronic Publication
Fraunhofer IDMT ()

Abstract
This paper presents techniques aiming at improving automatic speech recognition (ASR) in single channel scenarios in the context of the REVERB (REverberant Voice Enhancement and Recognition Benchmark) challenge. System improvements range from speech enhancement over robust feature extraction to model adaptation and word-based integration of multiple classifiers. The selective temporal cepstrum smoothing (TCS) technique is applied to enhance the reverberant speech signal at moderate noise levels, based on a statistical model of room impulse responses (RIRs) and minimum statistics (MS), considering estimates of late reverberations and the noise power spectrum densities (PSDs). Robust feature extraction is performed by amplitude modulation filtering of the cepstrogram to extract its temporal modulation information. As an alternative classifier, the acoustic models have been adopted using different RIRs and a RIR selection scheme based on a multi-layer perceptron (MLP) system that uses spectro-temporal features as the input. In the final stage, a system combination approach achieved by recognizer output voting error reduction (ROVER) is employed to obtain a jointly optimal recognized transcription. The proposed system has been evaluated in two different processing modes, i.e. utterancebased batch processing and full batch processing, which results in an overall average absolute improvement of 11% under variant reverberant conditions compared to the baseline system.

: http://publica.fraunhofer.de/documents/N-339790.html