Alert button
Picture for Mei Xie

Mei Xie

Alert button

Improved Focus on Hard Samples for Lung Nodule Detection

Mar 07, 2024
Yujiang Chen, Mei Xie

Figure 1 for Improved Focus on Hard Samples for Lung Nodule Detection
Figure 2 for Improved Focus on Hard Samples for Lung Nodule Detection
Figure 3 for Improved Focus on Hard Samples for Lung Nodule Detection
Figure 4 for Improved Focus on Hard Samples for Lung Nodule Detection
Viaarxiv icon

Distribution Fitting for Combating Mode Collapse in GANs

Dec 03, 2022
Yanxiang Gong, Zhiwei Xie, Guozhen Duan, Zheng Ma, Mei Xie

Figure 1 for Distribution Fitting for Combating Mode Collapse in GANs
Figure 2 for Distribution Fitting for Combating Mode Collapse in GANs
Figure 3 for Distribution Fitting for Combating Mode Collapse in GANs
Figure 4 for Distribution Fitting for Combating Mode Collapse in GANs
Viaarxiv icon

Unified Chinese License Plate Detection and Recognition with High Efficiency

May 07, 2022
Yanxiang Gong, Linjie Deng, Shuai Tao, Xinchen Lu, Peicheng Wu, Zhiwei Xie, Zheng Ma, Mei Xie

Figure 1 for Unified Chinese License Plate Detection and Recognition with High Efficiency
Figure 2 for Unified Chinese License Plate Detection and Recognition with High Efficiency
Figure 3 for Unified Chinese License Plate Detection and Recognition with High Efficiency
Figure 4 for Unified Chinese License Plate Detection and Recognition with High Efficiency
Viaarxiv icon

Unsupervised domain adaptation via coarse-to-fine feature alignment method using contrastive learning

Mar 23, 2021
Shiyu Tang, Peijun Tang, Yanxiang Gong, Zheng Ma, Mei Xie

Figure 1 for Unsupervised domain adaptation via coarse-to-fine feature alignment method using contrastive learning
Figure 2 for Unsupervised domain adaptation via coarse-to-fine feature alignment method using contrastive learning
Figure 3 for Unsupervised domain adaptation via coarse-to-fine feature alignment method using contrastive learning
Figure 4 for Unsupervised domain adaptation via coarse-to-fine feature alignment method using contrastive learning
Viaarxiv icon

Single Image Super-Resolution via Residual Neuron Attention Networks

May 21, 2020
Wenjie Ai, Xiaoguang Tu, Shilei Cheng, Mei Xie

Figure 1 for Single Image Super-Resolution via Residual Neuron Attention Networks
Figure 2 for Single Image Super-Resolution via Residual Neuron Attention Networks
Figure 3 for Single Image Super-Resolution via Residual Neuron Attention Networks
Viaarxiv icon

What's the relationship between CNNs and communication systems?

Mar 03, 2020
Hao Ge, Xiaoguang Tu, Yanxiang Gong, Mei Xie, Zheng Ma

Viaarxiv icon

Defending from adversarial examples with a two-stream architecture

Dec 30, 2019
Hao Ge, Xiaoguang Tu, Mei Xie, Zheng Ma

Figure 1 for Defending from adversarial examples with a two-stream architecture
Figure 2 for Defending from adversarial examples with a two-stream architecture
Viaarxiv icon

Focus-Enhanced Scene Text Recognition with Deformable Convolutions

Sep 23, 2019
Linjie Deng, Yanxiang Gong, Xinchen Lu, Xin Yi, Zheng Ma, Mei Xie

Figure 1 for Focus-Enhanced Scene Text Recognition with Deformable Convolutions
Figure 2 for Focus-Enhanced Scene Text Recognition with Deformable Convolutions
Figure 3 for Focus-Enhanced Scene Text Recognition with Deformable Convolutions
Figure 4 for Focus-Enhanced Scene Text Recognition with Deformable Convolutions
Viaarxiv icon

STELA: A Real-Time Scene Text Detector with Learned Anchor

Sep 23, 2019
Linjie Deng, Yanxiang Gong, Xinchen Lu, Yi Lin, Zheng Ma, Mei Xie

Figure 1 for STELA: A Real-Time Scene Text Detector with Learned Anchor
Figure 2 for STELA: A Real-Time Scene Text Detector with Learned Anchor
Figure 3 for STELA: A Real-Time Scene Text Detector with Learned Anchor
Figure 4 for STELA: A Real-Time Scene Text Detector with Learned Anchor
Viaarxiv icon