Alert button
Picture for Yunfei Liu

Yunfei Liu

Alert button

GPAvatar: Generalizable and Precise Head Avatar from Image(s)

Jan 18, 2024
Xuangeng Chu, Yu Li, Ailing Zeng, Tianyu Yang, Lijian Lin, Yunfei Liu, Tatsuya Harada

Viaarxiv icon

DiffSHEG: A Diffusion-Based Approach for Real-Time Speech-driven Holistic 3D Expression and Gesture Generation

Jan 09, 2024
Junming Chen, Yunfei Liu, Jianan Wang, Ailing Zeng, Yu Li, Qifeng Chen

Viaarxiv icon

A Video is Worth 256 Bases: Spatial-Temporal Expectation-Maximization Inversion for Zero-Shot Video Editing

Dec 10, 2023
Maomao Li, Yu Li, Tianyu Yang, Yunfei Liu, Dongxu Yue, Zhihui Lin, Dong Xu

Figure 1 for A Video is Worth 256 Bases: Spatial-Temporal Expectation-Maximization Inversion for Zero-Shot Video Editing
Figure 2 for A Video is Worth 256 Bases: Spatial-Temporal Expectation-Maximization Inversion for Zero-Shot Video Editing
Figure 3 for A Video is Worth 256 Bases: Spatial-Temporal Expectation-Maximization Inversion for Zero-Shot Video Editing
Figure 4 for A Video is Worth 256 Bases: Spatial-Temporal Expectation-Maximization Inversion for Zero-Shot Video Editing
Viaarxiv icon

LasTGL: An Industrial Framework for Large-Scale Temporal Graph Learning

Nov 30, 2023
Jintang Li, Jiawang Dan, Ruofan Wu, Jing Zhou, Sheng Tian, Yunfei Liu, Baokun Wang, Changhua Meng, Weiqiang Wang, Yuchang Zhu, Liang Chen, Zibin Zheng

Figure 1 for LasTGL: An Industrial Framework for Large-Scale Temporal Graph Learning
Figure 2 for LasTGL: An Industrial Framework for Large-Scale Temporal Graph Learning
Figure 3 for LasTGL: An Industrial Framework for Large-Scale Temporal Graph Learning
Figure 4 for LasTGL: An Industrial Framework for Large-Scale Temporal Graph Learning
Viaarxiv icon

Visibility Enhancement for Low-light Hazy Scenarios

Aug 01, 2023
Chaoqun Zhuang, Yunfei Liu, Sijia Wen, Feng Lu

Figure 1 for Visibility Enhancement for Low-light Hazy Scenarios
Figure 2 for Visibility Enhancement for Low-light Hazy Scenarios
Figure 3 for Visibility Enhancement for Low-light Hazy Scenarios
Figure 4 for Visibility Enhancement for Low-light Hazy Scenarios
Viaarxiv icon

MODA: Mapping-Once Audio-driven Portrait Animation with Dual Attentions

Jul 19, 2023
Yunfei Liu, Lijian Lin, Fei Yu, Changyin Zhou, Yu Li

Figure 1 for MODA: Mapping-Once Audio-driven Portrait Animation with Dual Attentions
Figure 2 for MODA: Mapping-Once Audio-driven Portrait Animation with Dual Attentions
Figure 3 for MODA: Mapping-Once Audio-driven Portrait Animation with Dual Attentions
Figure 4 for MODA: Mapping-Once Audio-driven Portrait Animation with Dual Attentions
Viaarxiv icon

Audio-Driven 3D Facial Animation from In-the-Wild Videos

Jun 20, 2023
Liying Lu, Tianke Zhang, Yunfei Liu, Xuangeng Chu, Yu Li

Figure 1 for Audio-Driven 3D Facial Animation from In-the-Wild Videos
Figure 2 for Audio-Driven 3D Facial Animation from In-the-Wild Videos
Figure 3 for Audio-Driven 3D Facial Animation from In-the-Wild Videos
Figure 4 for Audio-Driven 3D Facial Animation from In-the-Wild Videos
Viaarxiv icon

Jitter Does Matter: Adapting Gaze Estimation to New Domains

Oct 05, 2022
Ruicong Liu, Yiwei Bao, Mingjie Xu, Haofei Wang, Yunfei Liu, Feng Lu

Figure 1 for Jitter Does Matter: Adapting Gaze Estimation to New Domains
Figure 2 for Jitter Does Matter: Adapting Gaze Estimation to New Domains
Figure 3 for Jitter Does Matter: Adapting Gaze Estimation to New Domains
Figure 4 for Jitter Does Matter: Adapting Gaze Estimation to New Domains
Viaarxiv icon

Discriminative feature encoding for intrinsic image decomposition

Sep 25, 2022
Zongji Wang, Yunfei Liu, Feng Lu

Figure 1 for Discriminative feature encoding for intrinsic image decomposition
Figure 2 for Discriminative feature encoding for intrinsic image decomposition
Figure 3 for Discriminative feature encoding for intrinsic image decomposition
Figure 4 for Discriminative feature encoding for intrinsic image decomposition
Viaarxiv icon

Modeling Diverse Chemical Reactions for Single-step Retrosynthesis via Discrete Latent Variables

Aug 10, 2022
Huarui He, Jie Wang, Yunfei Liu, Feng Wu

Figure 1 for Modeling Diverse Chemical Reactions for Single-step Retrosynthesis via Discrete Latent Variables
Figure 2 for Modeling Diverse Chemical Reactions for Single-step Retrosynthesis via Discrete Latent Variables
Figure 3 for Modeling Diverse Chemical Reactions for Single-step Retrosynthesis via Discrete Latent Variables
Figure 4 for Modeling Diverse Chemical Reactions for Single-step Retrosynthesis via Discrete Latent Variables
Viaarxiv icon