Alert button
Picture for Hong Tang

Hong Tang

Alert button

Concatenated Masked Autoencoders as Spatial-Temporal Learner

Nov 02, 2023
Zhouqiang Jiang, Bowen Wang, Tong Xiang, Zhaofeng Niu, Hong Tang, Guangshun Li, Liangzhi Li

Viaarxiv icon

Outage Analysis of Aerial Semi-Grant-Free NOMA Systems

May 12, 2022
Hongjiang Lei, Chen Zhu, Ki-Hong Park, Imran Shafique Ansari, Weijia Lei, Hong Tang, Kyeong Jin Kim

Figure 1 for Outage Analysis of Aerial Semi-Grant-Free NOMA Systems
Figure 2 for Outage Analysis of Aerial Semi-Grant-Free NOMA Systems
Figure 3 for Outage Analysis of Aerial Semi-Grant-Free NOMA Systems
Figure 4 for Outage Analysis of Aerial Semi-Grant-Free NOMA Systems
Viaarxiv icon

Deep Convolutional Neural Networks to Predict Mutual Coupling Effects in Metasurfaces

Feb 02, 2021
Sensong An, Bowen Zheng, Mikhail Y. Shalaginov, Hong Tang, Hang Li, Li Zhou, Yunxi Dong, Mohammad Haerinia, Anuradha Murthy Agarwal, Clara Rivero-Baleine, Myungkoo Kang, Kathleen A. Richardson, Tian Gu, Juejun Hu, Clayton Fowler, Hualiang Zhang

Figure 1 for Deep Convolutional Neural Networks to Predict Mutual Coupling Effects in Metasurfaces
Figure 2 for Deep Convolutional Neural Networks to Predict Mutual Coupling Effects in Metasurfaces
Figure 3 for Deep Convolutional Neural Networks to Predict Mutual Coupling Effects in Metasurfaces
Figure 4 for Deep Convolutional Neural Networks to Predict Mutual Coupling Effects in Metasurfaces
Viaarxiv icon

A Freeform Dielectric Metasurface Modeling Approach Based on Deep Neural Networks

Jan 01, 2020
Sensong An, Bowen Zheng, Mikhail Y. Shalaginov, Hong Tang, Hang Li, Li Zhou, Jun Ding, Anuradha Murthy Agarwal, Clara Rivero-Baleine, Myungkoo Kang, Kathleen A. Richardson, Tian Gu, Juejun Hu, Clayton Fowler, Hualiang Zhang

Figure 1 for A Freeform Dielectric Metasurface Modeling Approach Based on Deep Neural Networks
Figure 2 for A Freeform Dielectric Metasurface Modeling Approach Based on Deep Neural Networks
Figure 3 for A Freeform Dielectric Metasurface Modeling Approach Based on Deep Neural Networks
Figure 4 for A Freeform Dielectric Metasurface Modeling Approach Based on Deep Neural Networks
Viaarxiv icon

Controllable Length Control Neural Encoder-Decoder via Reinforcement Learning

Sep 17, 2019
Junyi Bian, Baojun Lin, Ke Zhang, Zhaohui Yan, Hong Tang, Yonghe Zhang

Figure 1 for Controllable Length Control Neural Encoder-Decoder via Reinforcement Learning
Figure 2 for Controllable Length Control Neural Encoder-Decoder via Reinforcement Learning
Figure 3 for Controllable Length Control Neural Encoder-Decoder via Reinforcement Learning
Figure 4 for Controllable Length Control Neural Encoder-Decoder via Reinforcement Learning
Viaarxiv icon

Generative Multi-Functional Meta-Atom and Metasurface Design Networks

Aug 13, 2019
Sensong An, Bowen Zheng, Hong Tang, Mikhail Y. Shalaginov, Li Zhou, Hang Li, Tian Gu, Juejun Hu, Clayton Fowler, Hualiang Zhang

Figure 1 for Generative Multi-Functional Meta-Atom and Metasurface Design Networks
Figure 2 for Generative Multi-Functional Meta-Atom and Metasurface Design Networks
Figure 3 for Generative Multi-Functional Meta-Atom and Metasurface Design Networks
Figure 4 for Generative Multi-Functional Meta-Atom and Metasurface Design Networks
Viaarxiv icon

A Novel Modeling Approach for All-Dielectric Metasurfaces Using Deep Neural Networks

Jun 08, 2019
Sensong An, Clayton Fowler, Bowen Zheng, Mikhail Y. Shalaginov, Hong Tang, Hang Li, Li Zhou, Jun Ding, Anuradha Murthy Agarwal, Clara Rivero-Baleine, Kathleen A. Richardson, Tian Gu, Juejun Hu, Hualiang Zhang

Figure 1 for A Novel Modeling Approach for All-Dielectric Metasurfaces Using Deep Neural Networks
Figure 2 for A Novel Modeling Approach for All-Dielectric Metasurfaces Using Deep Neural Networks
Figure 3 for A Novel Modeling Approach for All-Dielectric Metasurfaces Using Deep Neural Networks
Figure 4 for A Novel Modeling Approach for All-Dielectric Metasurfaces Using Deep Neural Networks
Viaarxiv icon

Classification of normal/abnormal heart sound recordings based on multi-domain features and back propagation neural network

Oct 17, 2018
Hong Tang, Huaming Chen, Ting Li, Mingjun Zhong

Figure 1 for Classification of normal/abnormal heart sound recordings based on multi-domain features and back propagation neural network
Figure 2 for Classification of normal/abnormal heart sound recordings based on multi-domain features and back propagation neural network
Figure 3 for Classification of normal/abnormal heart sound recordings based on multi-domain features and back propagation neural network
Figure 4 for Classification of normal/abnormal heart sound recordings based on multi-domain features and back propagation neural network
Viaarxiv icon

Modeling Loosely Annotated Images with Imagined Annotations

May 29, 2008
Hong Tang, Nozha Boujemma, Yunhao Chen

Figure 1 for Modeling Loosely Annotated Images with Imagined Annotations
Figure 2 for Modeling Loosely Annotated Images with Imagined Annotations
Figure 3 for Modeling Loosely Annotated Images with Imagined Annotations
Viaarxiv icon