Alert button
Picture for Hyeong-Seok Choi

Hyeong-Seok Choi

Alert button

Yet Another Generative Model For Room Impulse Response Estimation

Nov 05, 2023
Sungho Lee, Hyeong-Seok Choi, Kyogu Lee

Viaarxiv icon

Towards trustworthy phoneme boundary detection with autoregressive model and improved evaluation metric

Dec 13, 2022
Hyeongju Kim, Hyeong-Seok Choi

Figure 1 for Towards trustworthy phoneme boundary detection with autoregressive model and improved evaluation metric
Figure 2 for Towards trustworthy phoneme boundary detection with autoregressive model and improved evaluation metric
Figure 3 for Towards trustworthy phoneme boundary detection with autoregressive model and improved evaluation metric
Figure 4 for Towards trustworthy phoneme boundary detection with autoregressive model and improved evaluation metric
Viaarxiv icon

NANSY++: Unified Voice Synthesis with Neural Analysis and Synthesis

Nov 17, 2022
Hyeong-Seok Choi, Jinhyeok Yang, Juheon Lee, Hyeongju Kim

Figure 1 for NANSY++: Unified Voice Synthesis with Neural Analysis and Synthesis
Figure 2 for NANSY++: Unified Voice Synthesis with Neural Analysis and Synthesis
Figure 3 for NANSY++: Unified Voice Synthesis with Neural Analysis and Synthesis
Figure 4 for NANSY++: Unified Voice Synthesis with Neural Analysis and Synthesis
Viaarxiv icon

Expressive Singing Synthesis Using Local Style Token and Dual-path Pitch Encoder

Apr 07, 2022
Juheon Lee, Hyeong-Seok Choi, Kyogu Lee

Figure 1 for Expressive Singing Synthesis Using Local Style Token and Dual-path Pitch Encoder
Figure 2 for Expressive Singing Synthesis Using Local Style Token and Dual-path Pitch Encoder
Figure 3 for Expressive Singing Synthesis Using Local Style Token and Dual-path Pitch Encoder
Figure 4 for Expressive Singing Synthesis Using Local Style Token and Dual-path Pitch Encoder
Viaarxiv icon

Neural Analysis and Synthesis: Reconstructing Speech from Self-Supervised Representations

Oct 28, 2021
Hyeong-Seok Choi, Juheon Lee, Wansoo Kim, Jie Hwan Lee, Hoon Heo, Kyogu Lee

Figure 1 for Neural Analysis and Synthesis: Reconstructing Speech from Self-Supervised Representations
Figure 2 for Neural Analysis and Synthesis: Reconstructing Speech from Self-Supervised Representations
Figure 3 for Neural Analysis and Synthesis: Reconstructing Speech from Self-Supervised Representations
Figure 4 for Neural Analysis and Synthesis: Reconstructing Speech from Self-Supervised Representations
Viaarxiv icon

Differentiable Artificial Reverberation

May 28, 2021
Sungho Lee, Hyeong-Seok Choi, Kyogu Lee

Figure 1 for Differentiable Artificial Reverberation
Figure 2 for Differentiable Artificial Reverberation
Figure 3 for Differentiable Artificial Reverberation
Figure 4 for Differentiable Artificial Reverberation
Viaarxiv icon

Room adaptive conditioning method for sound event classification in reverberant environments

Apr 21, 2021
Jaejun Lee, Donmoon Lee, Hyeong-Seok Choi, Kyogu Lee

Figure 1 for Room adaptive conditioning method for sound event classification in reverberant environments
Figure 2 for Room adaptive conditioning method for sound event classification in reverberant environments
Figure 3 for Room adaptive conditioning method for sound event classification in reverberant environments
Figure 4 for Room adaptive conditioning method for sound event classification in reverberant environments
Viaarxiv icon

Real-time Denoising and Dereverberation with Tiny Recurrent U-Net

Feb 10, 2021
Hyeong-Seok Choi, Sungjin Park, Jie Hwan Lee, Hoon Heo, Dongsuk Jeon, Kyogu Lee

Figure 1 for Real-time Denoising and Dereverberation with Tiny Recurrent U-Net
Figure 2 for Real-time Denoising and Dereverberation with Tiny Recurrent U-Net
Figure 3 for Real-time Denoising and Dereverberation with Tiny Recurrent U-Net
Figure 4 for Real-time Denoising and Dereverberation with Tiny Recurrent U-Net
Viaarxiv icon

From Inference to Generation: End-to-end Fully Self-supervised Generation of Human Face from Speech

Apr 13, 2020
Hyeong-Seok Choi, Changdae Park, Kyogu Lee

Figure 1 for From Inference to Generation: End-to-end Fully Self-supervised Generation of Human Face from Speech
Figure 2 for From Inference to Generation: End-to-end Fully Self-supervised Generation of Human Face from Speech
Figure 3 for From Inference to Generation: End-to-end Fully Self-supervised Generation of Human Face from Speech
Figure 4 for From Inference to Generation: End-to-end Fully Self-supervised Generation of Human Face from Speech
Viaarxiv icon

Phase-aware Speech Enhancement with Deep Complex U-Net

Apr 02, 2019
Hyeong-Seok Choi, Jang-Hyun Kim, Jaesung Huh, Adrian Kim, Jung-Woo Ha, Kyogu Lee

Figure 1 for Phase-aware Speech Enhancement with Deep Complex U-Net
Figure 2 for Phase-aware Speech Enhancement with Deep Complex U-Net
Figure 3 for Phase-aware Speech Enhancement with Deep Complex U-Net
Figure 4 for Phase-aware Speech Enhancement with Deep Complex U-Net
Viaarxiv icon