Monaural speech separation using GA-DNN integration scheme

In this research work, we propose the model based on the Genetic Algorithm (GA) and Deep Neural Network (DNN) to enhance the quality and intelligibility of the noisy speech. In this proposed model, the Voiced Speech (VS) T-F mask is computed using correlogram, frame energy and cross-channel correlog...

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Bibliographic Details
Published in:Applied acoustics 2020-03, Vol.160, p.107140, Article 107140
Main Authors: Sivapatham, Shoba, Ramadoss, Rajavel, Kar, Asutosh, Majhi, Banshidhar
Format: Article
Language:English
Subjects:
Deep Neural Network
Genetic Algorithm
Monaural Speech Separation
Segmentation
Unvoiced Speech
Voiced Speech
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Summary:In this research work, we propose the model based on the Genetic Algorithm (GA) and Deep Neural Network (DNN) to enhance the quality and intelligibility of the noisy speech. In this proposed model, the Voiced Speech (VS) T-F mask is computed using correlogram, frame energy and cross-channel correlogram and Unvoiced Speech (UVS) T-F mask is computed using speech onset/offset. The T-F mask obtained using speech onset and offset represents both voiced and unvoiced segment of the noisy speech signal. The UVS T-F mask is obtained by subtracting the VS from the T-F mask obtained earlier using speech onset/offset. Next, the GA is used to find the optimum weight to combine the T-F mask of VS and UVS to improve speech quality and intelligibility. The weight obtained using GA may not be an optimum one for all sets of speech and noise. This research work focuses on this issue and proposes a DNN model to estimate the optimum weight for all sets of speech and noise. The DNN model is trained using features and optimum weight obtained using GA. Later, the trained DNN model is used to estimate the optimum weight for the testing speech and noise samples. The performance of the proposed GA-DNN based model is evaluated using objective and subjective quality and intelligibility measures. The results of the proposed model shows a prompt improvement in the speech quality and intelligibility with average of 0.73, 4.07, 0.17, 0.26 and 0.22 for PESQ, SNR, STOI, CSII and NCM when compared with the existing speech separation systems.
ISSN:0003-682X
1872-910X
DOI:10.1016/j.apacoust.2019.107140