Papers

LiteTTS: A Decoder-free Light-weight Text-to-wave Synthesis Based on Generative Adversarial Networks

International Conference
2021~
작성자
한혜원
작성일
2021-08-30 22:24
조회
3015
Authors : Huu-Kim Nguyen, Kihyuk Jeong, Seyun Um, Min-Jae Hwang, Eunwoo Song, Hong-Goo Kang

Year : 2021

Publisher / Conference : INTERSPEECH

Research area : Speech Signal Processing, Text-to-Speech

Presentation : Poster

In this paper, we propose a lightweight end-to-end text-to-speech (TTS) model that can generate high-quality speech at breakneck speeds. In our proposed model, a feature prediction module and a waveform generation module are combined within a single TTS framework. The feature prediction module, which consists of two independent sub-modules, estimates latent space embeddings for input text and prosodic information, and the waveform generation module generates speech wave-forms by conditioning on the estimated latent space embeddings. Unlike conventional approaches that estimate prosodic information using a pre-trained model, our model jointly trains the prosodic embedding network with the speech waveform generation task using an effective domain transfer technique. Experimental results show that our proposed model can generate samples 7 times faster than real-time, and about 1.6 times faster than FastSpeech 2, as we use only 13.4 million parameters. We confirm that the generated speech quality is still of a high standard as evaluated by mean opinion scores.
전체 365
3 International Conference Huu-Kim Nguyen, Kihyuk Jeong, Seyun Um, Min-Jae Hwang, Eunwoo Song, Hong-Goo Kang "LiteTTS: A Decoder-free Light-weight Text-to-wave Synthesis Based on Generative Adversarial Networks" in INTERSPEECH, 2021
2 International Conference Kihyuk Jeong, Huu-Kim Nguyen, Hong-Goo Kang "A Fast and Lightweight Text-To-Speech Model with Spectrum and Waveform Alignment Algorithms" in EUSIPCO, 2021
1 International Conference Huu-Kim Nguyen, Kihyuk Jeong, Hong-Goo Kang "Fast and Lightweight Speech Synthesis Model based on FastSpeech2" in ITC-CSCC, 2021