Yun-Ju Chan scite author profile

Multi-task learning (MTL) and attention mechanism have been proven to effectively extract robust acoustic features for various speech-related tasks in noisy environments. In this study, we propose an attention-based MTL (ATM) approach that integrates MTL and the attention-weighting mechanism to simultaneously realize a multi-model learning structure that performs speech enhancement (SE) and speaker identification (SI). The proposed ATM system consists of three parts: SE, SI, and attention-Net (AttNet). The SE part is composed of a long-shortterm memory (LSTM) model, and a deep neural network (DNN) model is used to develop the SI and AttNet parts. The overall ATM system first extracts the representative features and then enhances the speech signals in LSTM-SE and specifies speaker identity in DNN-SI. The AttNet computes weights based on DNN-SI to prepare better representative features for LSTM-SE. We tested the proposed ATM system on Taiwan Mandarin hearing in noise test sentences. The evaluation results confirmed that the proposed system can effectively enhance speech quality and intelligibility of a given noisy input. Moreover, the accuracy of the SI can also be notably improved by using the proposed ATM system.

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Speech Enhancement-assisted Voice Conversion in Noisy Environments

Chan

Peng

Wang

et al. 2022

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HMM adaptation techniques in training framework

He¹,

Chan²

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Yun-Ju Chan

Perceptual Characteristics Based Multi-objective Model for Speech Enhancement

Speech Enhancement-assisted Voice Conversion in Noisy Environments

Attention-Based Multi-Task Learning for Speech-Enhancement and Speaker-Identification in Multi-Speaker Dialogue Scenario

Speech Enhancement-assisted Voice Conversion in Noisy Environments

HMM adaptation techniques in training framework

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