no code implementations • 4 Aug 2022 • Ming Cheng, Yiling Xu, Wang Shen, M. Salman Asif, Chao Ma, Jun Sun, Zhan Ma
We utilize a disparity network to transfer spatiotemporal information across views even in large disparity scenes, based on which, we propose disparity-guided flow-based warping for LSR-HFR view and complementary warping for HSR-LFR view.
2 code implementations • 25 Jun 2022 • Wang Shen, Cheng Ming, Wenbo Bao, Guangtao Zhai, Li Chen, Zhiyong Gao
With AutoFI and SktFI, the interpolated animation frames show high perceptual quality.
no code implementations • 5 Nov 2021 • Zhenxing Dong, Hong Cao, Wang Shen, Yu Gan, Yuye Ling, Guangtao Zhai, Yikai Su
In particular, we propose to use a convolutional neural network (CNN) to learn the cutoff frequency of real-world degradation process.
1 code implementation • CVPR 2021 • Yi Fang, Jiapeng Tang, Wang Shen, Wei Shen, Xiao Gu, Li Song, Guangtao Zhai
In the third stage, we use the generated dual attention as guidance to perform two sub-tasks: (1) identifying whether the gaze target is inside or out of the image; (2) locating the target if inside.
no code implementations • 17 Mar 2021 • Wang Shen, Wenbo Bao, Guangtao Zhai, Charlie L Wang, Jerry W Hu, Zhiyong Gao
An effective approach is to transmit frames in lower-quality under poor bandwidth conditions, such as using scalable video coding.
1 code implementation • BMC Bioinformatics 2020 • Yuanhe Tian, Wang Shen, Yan Song, Fei Xia, Min He, Kenli Li
The experimental results on six English benchmark datasets demonstrate that auto-processed syntactic information can be a useful resource for BioNER and our method with KVMN can appropriately leverage such information to improve model performance.
Ranked #1 on Named Entity Recognition (NER) on Species-800
1 code implementation • CVPR 2020 • Wang Shen, Wenbo Bao, Guangtao Zhai, Li Chen, Xiongkuo Min, Zhiyong Gao
Existing works reduce motion blur and up-convert frame rate through two separate ways, including frame deblurring and frame interpolation.