Alert button

"Information": models, code, and papers
Alert button

Domain Adaptation via Prompt Learning

Feb 14, 2022
Chunjiang Ge, Rui Huang, Mixue Xie, Zihang Lai, Shiji Song, Shuang Li, Gao Huang

Figure 1 for Domain Adaptation via Prompt Learning
Figure 2 for Domain Adaptation via Prompt Learning
Figure 3 for Domain Adaptation via Prompt Learning
Figure 4 for Domain Adaptation via Prompt Learning
Viaarxiv icon

Differential Privacy Amplification in Quantum and Quantum-inspired Algorithms

Mar 07, 2022
Armando Angrisani, Mina Doosti, Elham Kashefi

Figure 1 for Differential Privacy Amplification in Quantum and Quantum-inspired Algorithms
Figure 2 for Differential Privacy Amplification in Quantum and Quantum-inspired Algorithms
Viaarxiv icon

NeuraGen-A Low-Resource Neural Network based approach for Gender Classification

Mar 29, 2022
Shankhanil Ghosh, Chhanda Saha, Naagamani Molakathaala

Figure 1 for NeuraGen-A Low-Resource Neural Network based approach for Gender Classification
Figure 2 for NeuraGen-A Low-Resource Neural Network based approach for Gender Classification
Figure 3 for NeuraGen-A Low-Resource Neural Network based approach for Gender Classification
Figure 4 for NeuraGen-A Low-Resource Neural Network based approach for Gender Classification
Viaarxiv icon

Unpaired Image Captioning by Image-level Weakly-Supervised Visual Concept Recognition

Mar 07, 2022
Peipei Zhu, Xiao Wang, Yong Luo, Zhenglong Sun, Wei-Shi Zheng, Yaowei Wang, Changwen Chen

Figure 1 for Unpaired Image Captioning by Image-level Weakly-Supervised Visual Concept Recognition
Figure 2 for Unpaired Image Captioning by Image-level Weakly-Supervised Visual Concept Recognition
Figure 3 for Unpaired Image Captioning by Image-level Weakly-Supervised Visual Concept Recognition
Figure 4 for Unpaired Image Captioning by Image-level Weakly-Supervised Visual Concept Recognition
Viaarxiv icon

Automatically Learning Fallback Strategies with Model-Free Reinforcement Learning in Safety-Critical Driving Scenarios

Apr 11, 2022
Ugo Lecerf, Christelle Yemdji-Tchassi, Sébastien Aubert, Pietro Michiardi

Figure 1 for Automatically Learning Fallback Strategies with Model-Free Reinforcement Learning in Safety-Critical Driving Scenarios
Figure 2 for Automatically Learning Fallback Strategies with Model-Free Reinforcement Learning in Safety-Critical Driving Scenarios
Figure 3 for Automatically Learning Fallback Strategies with Model-Free Reinforcement Learning in Safety-Critical Driving Scenarios
Figure 4 for Automatically Learning Fallback Strategies with Model-Free Reinforcement Learning in Safety-Critical Driving Scenarios
Viaarxiv icon

EfficientFi: Towards Large-Scale Lightweight WiFi Sensing via CSI Compression

Apr 08, 2022
Jianfei Yang, Xinyan Chen, Han Zou, Dazhuo Wang, Qianwen Xu, Lihua Xie

Figure 1 for EfficientFi: Towards Large-Scale Lightweight WiFi Sensing via CSI Compression
Figure 2 for EfficientFi: Towards Large-Scale Lightweight WiFi Sensing via CSI Compression
Figure 3 for EfficientFi: Towards Large-Scale Lightweight WiFi Sensing via CSI Compression
Figure 4 for EfficientFi: Towards Large-Scale Lightweight WiFi Sensing via CSI Compression
Viaarxiv icon

Pop-Out Motion: 3D-Aware Image Deformation via Learning the Shape Laplacian

Mar 29, 2022
Jihyun Lee, Minhyuk Sung, Hyunjin Kim, Tae-Kyun Kim

Viaarxiv icon

Noisy Boundaries: Lemon or Lemonade for Semi-supervised Instance Segmentation?

Mar 25, 2022
Zhenyu Wang, Yali Li, Shengjin Wang

Figure 1 for Noisy Boundaries: Lemon or Lemonade for Semi-supervised Instance Segmentation?
Figure 2 for Noisy Boundaries: Lemon or Lemonade for Semi-supervised Instance Segmentation?
Figure 3 for Noisy Boundaries: Lemon or Lemonade for Semi-supervised Instance Segmentation?
Figure 4 for Noisy Boundaries: Lemon or Lemonade for Semi-supervised Instance Segmentation?
Viaarxiv icon

MDA GAN: Adversarial-Learning-based 3-D Seismic Data Interpolation and Reconstruction for Complex Missing

Apr 08, 2022
Yimin Dou, Kewen Li, Hongjie Duan, Timing Li, Lin Dong, Zongchao Huang

Figure 1 for MDA GAN: Adversarial-Learning-based 3-D Seismic Data Interpolation and Reconstruction for Complex Missing
Figure 2 for MDA GAN: Adversarial-Learning-based 3-D Seismic Data Interpolation and Reconstruction for Complex Missing
Figure 3 for MDA GAN: Adversarial-Learning-based 3-D Seismic Data Interpolation and Reconstruction for Complex Missing
Figure 4 for MDA GAN: Adversarial-Learning-based 3-D Seismic Data Interpolation and Reconstruction for Complex Missing
Viaarxiv icon

Seeded graph matching for the correlated Wigner model via the projected power method

Apr 08, 2022
Ernesto Araya, Guillaume Braun, Hemant Tyagi

Figure 1 for Seeded graph matching for the correlated Wigner model via the projected power method
Figure 2 for Seeded graph matching for the correlated Wigner model via the projected power method
Figure 3 for Seeded graph matching for the correlated Wigner model via the projected power method
Figure 4 for Seeded graph matching for the correlated Wigner model via the projected power method
Viaarxiv icon