Alert button
Picture for Liang Lin

Liang Lin

Alert button

REM-Net: Recursive Erasure Memory Network for Commonsense Evidence Refinement

Jan 03, 2021
Yinya Huang, Meng Fang, Xunlin Zhan, Qingxing Cao, Xiaodan Liang, Liang Lin

Figure 1 for REM-Net: Recursive Erasure Memory Network for Commonsense Evidence Refinement
Figure 2 for REM-Net: Recursive Erasure Memory Network for Commonsense Evidence Refinement
Figure 3 for REM-Net: Recursive Erasure Memory Network for Commonsense Evidence Refinement
Figure 4 for REM-Net: Recursive Erasure Memory Network for Commonsense Evidence Refinement
Viaarxiv icon

AU-Expression Knowledge Constrained Representation Learning for Facial Expression Recognition

Dec 29, 2020
Tao Pu, Tianshui Chen, Yuan Xie, Hefeng Wu, Liang Lin

Figure 1 for AU-Expression Knowledge Constrained Representation Learning for Facial Expression Recognition
Figure 2 for AU-Expression Knowledge Constrained Representation Learning for Facial Expression Recognition
Figure 3 for AU-Expression Knowledge Constrained Representation Learning for Facial Expression Recognition
Figure 4 for AU-Expression Knowledge Constrained Representation Learning for Facial Expression Recognition
Viaarxiv icon

Adversarial Meta Sampling for Multilingual Low-Resource Speech Recognition

Dec 23, 2020
Yubei Xiao, Ke Gong, Pan Zhou, Guolin Zheng, Xiaodan Liang, Liang Lin

Figure 1 for Adversarial Meta Sampling for Multilingual Low-Resource Speech Recognition
Figure 2 for Adversarial Meta Sampling for Multilingual Low-Resource Speech Recognition
Figure 3 for Adversarial Meta Sampling for Multilingual Low-Resource Speech Recognition
Figure 4 for Adversarial Meta Sampling for Multilingual Low-Resource Speech Recognition
Viaarxiv icon

Graph-Evolving Meta-Learning for Low-Resource Medical Dialogue Generation

Dec 22, 2020
Shuai Lin, Pan Zhou, Xiaodan Liang, Jianheng Tang, Ruihui Zhao, Ziliang Chen, Liang Lin

Figure 1 for Graph-Evolving Meta-Learning for Low-Resource Medical Dialogue Generation
Figure 2 for Graph-Evolving Meta-Learning for Low-Resource Medical Dialogue Generation
Figure 3 for Graph-Evolving Meta-Learning for Low-Resource Medical Dialogue Generation
Figure 4 for Graph-Evolving Meta-Learning for Low-Resource Medical Dialogue Generation
Viaarxiv icon

Knowledge-Routed Visual Question Reasoning: Challenges for Deep Representation Embedding

Dec 14, 2020
Qingxing Cao, Bailin Li, Xiaodan Liang, Keze Wang, Liang Lin

Figure 1 for Knowledge-Routed Visual Question Reasoning: Challenges for Deep Representation Embedding
Figure 2 for Knowledge-Routed Visual Question Reasoning: Challenges for Deep Representation Embedding
Figure 3 for Knowledge-Routed Visual Question Reasoning: Challenges for Deep Representation Embedding
Figure 4 for Knowledge-Routed Visual Question Reasoning: Challenges for Deep Representation Embedding
Viaarxiv icon

Cross-Modal Collaborative Representation Learning and a Large-Scale RGBT Benchmark for Crowd Counting

Dec 08, 2020
Lingbo Liu, Jiaqi Chen, Hefeng Wu, Guanbin Li, Chenglong Li, Liang Lin

Figure 1 for Cross-Modal Collaborative Representation Learning and a Large-Scale RGBT Benchmark for Crowd Counting
Figure 2 for Cross-Modal Collaborative Representation Learning and a Large-Scale RGBT Benchmark for Crowd Counting
Figure 3 for Cross-Modal Collaborative Representation Learning and a Large-Scale RGBT Benchmark for Crowd Counting
Figure 4 for Cross-Modal Collaborative Representation Learning and a Large-Scale RGBT Benchmark for Crowd Counting
Viaarxiv icon

Continuous Transition: Improving Sample Efficiency for Continuous Control Problems via MixUp

Nov 30, 2020
Junfan Lin, Zhongzhan Huang, Keze Wang, Xiaodan Liang, Weiwei Chen, Liang Lin

Figure 1 for Continuous Transition: Improving Sample Efficiency for Continuous Control Problems via MixUp
Figure 2 for Continuous Transition: Improving Sample Efficiency for Continuous Control Problems via MixUp
Figure 3 for Continuous Transition: Improving Sample Efficiency for Continuous Control Problems via MixUp
Figure 4 for Continuous Transition: Improving Sample Efficiency for Continuous Control Problems via MixUp
Viaarxiv icon

Auto-Panoptic: Cooperative Multi-Component Architecture Search for Panoptic Segmentation

Oct 30, 2020
Yangxin Wu, Gengwei Zhang, Hang Xu, Xiaodan Liang, Liang Lin

Figure 1 for Auto-Panoptic: Cooperative Multi-Component Architecture Search for Panoptic Segmentation
Figure 2 for Auto-Panoptic: Cooperative Multi-Component Architecture Search for Panoptic Segmentation
Figure 3 for Auto-Panoptic: Cooperative Multi-Component Architecture Search for Panoptic Segmentation
Figure 4 for Auto-Panoptic: Cooperative Multi-Component Architecture Search for Panoptic Segmentation
Viaarxiv icon